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[Tutorials] Added pong

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This commit is contained in:
Till Harbaum
2015-10-02 10:44:16 +02:00
parent 1b9132f1ba
commit b86b91873a
39 changed files with 4578 additions and 0 deletions
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6
tutorials/pong/lektion1/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

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tutorials/pong/lektion1/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

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tutorials/pong/lektion1/pong.qpf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

157
tutorials/pong/lektion1/pong.qsf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

BIN
tutorials/pong/lektion1/pong.rbf Normal file
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tutorials/pong/lektion1/pong.v Normal file
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// Ein einfaches Pong-Spiel fuer das MiST-FPGA-Board
// (c) 2015 Till Harbaum
// Lektion 1: VGA-Signal mit Ball
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // Breite des sichtbaren Bereiches
parameter HFP = 16; // Nicht nutzbarer Bereich vor H-Sync
parameter HS = 96; // Breite des H-Sync
parameter HBP = 48; // Nicht nutzbarer Bereich nach H-Sync
parameter V = 480; // Höhe des sichtbaren Bereiches
parameter VFP = 10; // Nicht nutzbarer Bereich vor V-Sync
parameter VS = 2; // Höhe des V-Sync
parameter VBP = 33; // Nicht nutzbarer Bereich nach V-Sync
reg[9:0] h_cnt; // horizontaler Pixelzaehler
reg[9:0] v_cnt; // vertikaler Pixelzaehler
// Deaktivieren des unbenutzten SDRAMs
assign SDRAM_nCS = 1;
localparam BALL_SIZE = 16; // Breite und Höse des Balls
// Ball startet im Zentrum des sichtbaren Bildschirmbereiches
reg [9:0] ball_x = HS + HBP + (H - BALL_SIZE)/2;
reg [9:0] ball_y = VS + VBP + (V - BALL_SIZE)/2;
// Beide Zaehler starten mit dem Beginn des Sync-Impulses
// horizontaler Pixelzaehler
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// Erzeugung des negativen H-Sync-Signals
VGA_HS <= (h_cnt >= HS);
end
// vertikaler Pixelzaehler
always@(posedge pixel_clock) begin
// der vertikale Zustand aendert sich am Anfang jeder Zeile
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// Erzeugung des negativen V-Sync-Signals
VGA_VS <= (v_cnt >= VS);
end
end
// Signal, das anzeigt, wenn der Elektronenstrahl gerade den Ball zeichnet
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
wire pixel = ball;
// Weiss, wenn "pixel" sonst schwarz
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// PLL, um aus den 27MHz den VGA-Pixeltakt zu erzeugen
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

6
tutorials/pong/lektion2/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

301
tutorials/pong/lektion2/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

30
tutorials/pong/lektion2/pong.qpf Normal file
View File

@@ -0,0 +1,30 @@
# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

157
tutorials/pong/lektion2/pong.qsf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

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tutorials/pong/lektion2/pong.rbf Normal file
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tutorials/pong/lektion2/pong.v Normal file
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// Ein einfaches Pong-Spiel fuer das MiST-FPGA-Board
// (c) 2015 Till Harbaum
// Lektion 2: Beweglicher Ball
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // Breite des sichtbaren Bereiches
parameter HFP = 16; // Nicht nutzbarer Bereich vor H-Sync
parameter HS = 96; // Breite des H-Sync
parameter HBP = 48; // Nicht nutzbarer Bereich nach H-Sync
parameter V = 480; // Höhe des sichtbaren Bereiches
parameter VFP = 10; // Nicht nutzbarer Bereich vor V-Sync
parameter VS = 2; // Höhe des V-Sync
parameter VBP = 33; // Nicht nutzbarer Bereich nach V-Sync
reg[9:0] h_cnt; // horizontaler Pixelzaehler
reg[9:0] v_cnt; // vertikaler Pixelzaehler
// Deaktivieren des unbenutzten SDRAMs
assign SDRAM_nCS = 1;
localparam BORDER = 8; // Höhe des oberen/unteren Randes
localparam BALL_SIZE = 16; // Breite und Höse des Balls
localparam BALL_SPEED = 4; // Schrittweite des Balles pro V-Sync
// Ball startet im Zentrum des sichtbaren Bildschirmbereiches
reg [9:0] ball_x = HS + HBP + (H - BALL_SIZE)/2;
reg [9:0] ball_y = VS + VBP + (V - BALL_SIZE)/2;
// Bewegungsrichtung des Balls
reg ball_move_x = 1'b1;
reg ball_move_y = 1'b1;
// Berechne neue Ballposition bei jedem VSync
always@(posedge VGA_VS) begin
// Änderung der horizontalen Bewegung, wenn der Rand erreicht ist
if(ball_x < HS+HBP) ball_move_x <= 1'b1;
if(ball_x >= HS+HBP+H-BALL_SIZE) ball_move_x <= 1'b0;
// horizontale Ballbewegung
if(ball_move_x) ball_x <= ball_x + BALL_SPEED;
else ball_x <= ball_x - BALL_SPEED;
// Änderung der vertikalen Bewegung, wenn der Rand erreicht ist
if(ball_y < VS+VBP+BORDER) ball_move_y <= 1'b1;
if(ball_y >= VS+VBP+V-BORDER-BALL_SIZE) ball_move_y <= 1'b0;
// vertikale Ballbewegung
if(ball_move_y) ball_y <= ball_y + BALL_SPEED;
else ball_y <= ball_y - BALL_SPEED;
end
// Beide Zaehler starten mit dem Beginn des Sync-Impulses
// horizontaler Pixelzaehler
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// Erzeugung des negativen H-Sync-Signals
VGA_HS <= (h_cnt >= HS);
end
// vertikaler Pixelzaehler
always@(posedge pixel_clock) begin
// der vertikale Zustand aendert sich am Anfang jeder Zeile
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// Erzeugung des negativen V-Sync-Signals
VGA_VS <= (v_cnt >= VS);
end
end
// Signal, das anzeigt, wenn der Elektronenstrahl gerade den Ball zeichnet
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
// Oberer und unterer Rand wird gezeichnet: Elektronenstrahl befindet sich
// im horizontalen Spielfeldbereich und entweder innerhalb des oberen
// Randbereiches oder des unteren
wire border = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+H) &&
(((v_cnt >= VS+VBP) && (v_cnt < VS+VBP+BORDER)) ||
((v_cnt >= VS+VBP+V-BORDER) && (v_cnt < VS+VBP+V)));
wire pixel = ball || border;
// Weiss, wenn "pixel" sonst schwarz
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// PLL, um aus den 27MHz den VGA-Pixeltakt zu erzeugen
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

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tutorials/pong/lektion3/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

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tutorials/pong/lektion3/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

158
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_global_assignment -name VERILOG_FILE user_io.v
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

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tutorials/pong/lektion3/pong.rbf Normal file
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206
tutorials/pong/lektion3/pong.v Normal file
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// Ein einfaches Pong-Spiel fuer das MiST-FPGA-Board
// (c) 2015 Till Harbaum
// Lektion 3: Joystick
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
// SPI-Schnittstelle zum IO-Prozessor
output SPI_DO,
input SPI_DI,
input SPI_SCK,
input CONF_DATA0,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
wire [7:0] joystick_0;
wire [7:0] joystick_1;
// Einbindung des user_io.v-Submoduls. Dieses erledigt einen grossen Teil der
// Kommunikation mit dem ARM-IO-Controller des MiST. Wir verwenden hier nur die
// Joysticks
user_io user_io (
.SPI_CLK ( SPI_SCK ),
.SPI_SS_IO ( CONF_DATA0 ),
.SPI_MISO ( SPI_DO ),
.SPI_MOSI ( SPI_DI ),
.joystick_0 ( joystick_0 ),
.joystick_1 ( joystick_1 )
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // Breite des sichtbaren Bereiches
parameter HFP = 16; // Nicht nutzbarer Bereich vor H-Sync
parameter HS = 96; // Breite des H-Sync
parameter HBP = 48; // Nicht nutzbarer Bereich nach H-Sync
parameter V = 480; // Höhe des sichtbaren Bereiches
parameter VFP = 10; // Nicht nutzbarer Bereich vor V-Sync
parameter VS = 2; // Höhe des V-Sync
parameter VBP = 33; // Nicht nutzbarer Bereich nach V-Sync
reg[9:0] h_cnt; // horizontaler Pixelzaehler
reg[9:0] v_cnt; // vertikaler Pixelzaehler
// Deaktivieren des unbenutzten SDRAMs
assign SDRAM_nCS = 1;
localparam BORDER = 8; // Höhe des oberen/unteren Randes
localparam BALL_SIZE = 16; // Breite und Höse des Balls
localparam BALL_SPEED = 4; // Schrittweite des Balles pro V-Sync
// Ballposition
reg [9:0] ball_x, ball_y;
// Bewegungsrichtung des Balls
reg ball_move_x = 1'b1;
reg ball_move_y = 1'b1;
// vertikale Position der Paddles
localparam PADDLE_WIDTH = BALL_SIZE; // Breite des Spielerpaddles
localparam PADDLE_HEIGHT = 4*BALL_SIZE; // Höhe des Spielerpaddles
localparam PADDLE_SPEED = 4; // Schrittweite des Paddles pro V-Sync
reg [9:0] paddle_0_y = VS + VBP + (V - PADDLE_HEIGHT)/2;
reg [9:0] paddle_1_y = VS + VBP + (V - PADDLE_HEIGHT)/2;
// aktualisiere Paddle-Position in jedem V-Sync
always@(posedge VGA_VS) begin
// bewege linkes Paddle zum oberen Rand, wenn es dort noch nicht angekommen ist
if(joystick_0[3] && (paddle_0_y > VS + VBP + BORDER))
paddle_0_y <= paddle_0_y - PADDLE_SPEED;
// bewege linkes Paddle zum unteren Rand, wenn es dort noch nicht angekommen ist
if(joystick_0[2] && (paddle_0_y < VS + VBP + V - BORDER - PADDLE_HEIGHT))
paddle_0_y <= paddle_0_y + PADDLE_SPEED;
// bewege rechtes Paddle zum oberen Rand, wenn es dort noch nicht angekommen ist
if(joystick_1[3] && (paddle_1_y > VS + VBP + BORDER))
paddle_1_y <= paddle_1_y - PADDLE_SPEED;
// bewege rechtes Paddle zum unteren Rand, wenn es dort noch nicht angekommen ist
if(joystick_1[2] && (paddle_1_y < VS + VBP + V - BORDER - PADDLE_HEIGHT))
paddle_1_y <= paddle_1_y + PADDLE_SPEED;
end
// erzeuge Kollisionssignale
wire ball_hits_paddle_0 =
(ball_x < HS+HBP+PADDLE_WIDTH) && // Ball ist im Bereich des linken Paddles
(ball_y > paddle_0_y - BALL_SIZE) && // Ball ist niedriger als Oberkante des Paddles
(ball_y < paddle_0_y + PADDLE_HEIGHT); // Ball ist hoeher als Unterkante des Paddles
wire ball_hits_paddle_1 =
(ball_x > HS+HBP+H-PADDLE_WIDTH-BALL_SIZE) && // Ball ist im Bereich des rechten Paddles
(ball_y > paddle_1_y - BALL_SIZE) && // Ball ist niedriger als Oberkante des Paddles
(ball_y < paddle_1_y + PADDLE_HEIGHT); // Ball ist hoeher als Unterkante des Paddles
wire ball_exits_left = ball_x <= HS+HBP; // Ball verlaesst Spielfeld nach links
wire ball_exits_right = ball_x >= HS+HBP+H-BALL_SIZE; // -"- nach rechts
reg game_running = 1'b0; // Spiel ist gestartet
// start/stop des Spiels
always@(posedge VGA_VS) begin
// Teste, ob de Ball den linke oder rechten Rand erreicht hat und stoppe
// des Spiel falls ja
if(ball_exits_left || ball_exits_right)
game_running <= 1'b0;
// jeder Feuer-Button startet des Spiel
if(joystick_0[4] || joystick_1[4])
game_running <= 1'b1;
end
// Berechne neue Ballposition bei jedem VSync
always@(posedge VGA_VS) begin
// Aenderung der horizontalen Bewegung, wenn ein Paddle getroffen wird oder
// wenn der Ball das Spielfeld zu verlassen droht
if(ball_hits_paddle_0 || ball_exits_left) ball_move_x <= 1'b1;
if(ball_hits_paddle_1 || ball_exits_right) ball_move_x <= 1'b0;
// Änderung der vertikalen Bewegung, wenn der Rand erreicht ist
if(ball_y < VS+VBP+BORDER) ball_move_y <= 1'b1;
if(ball_y >= VS+VBP+V-BORDER-BALL_SIZE) ball_move_y <= 1'b0;
// bewege Ball solange Spiel laeuft
if(game_running) begin
// horizontale Ballbewegung
if(ball_move_x) ball_x <= ball_x + BALL_SPEED;
else ball_x <= ball_x - BALL_SPEED;
// vertikale Ballbewegung
if(ball_move_y) ball_y <= ball_y + BALL_SPEED;
else ball_y <= ball_y - BALL_SPEED;
end else begin
// Spiel ist gestoppt: Ball in die Mitte
ball_x <= HS + HBP + (H - BALL_SIZE)/2;
ball_y <= VS + VBP + (V - BALL_SIZE)/2;
end
end
// Beide Zaehler starten mit dem Beginn des Sync-Impulses
// horizontaler Pixelzaehler
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// Erzeugung des negativen H-Sync-Signals
VGA_HS <= (h_cnt >= HS);
end
// vertikaler Pixelzaehler
always@(posedge pixel_clock) begin
// der vertikale Zustand aendert sich am Anfang jeder Zeile
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// Erzeugung des negativen V-Sync-Signals
VGA_VS <= (v_cnt >= VS);
end
end
// Signal, das anzeigt, wenn der Elektronenstrahl gerade den Ball zeichnet
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
// Oberer und unterer Rand wird gezeichnet: Elektronenstrahl befindet sich
// im horizontalen Spielfeldbereich und entweder innerhalb des oberen
// Randbereiches oder des unteren
wire border = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+H) &&
(((v_cnt >= VS+VBP) && (v_cnt < VS+VBP+BORDER)) ||
((v_cnt >= VS+VBP+V-BORDER) && (v_cnt < VS+VBP+V)));
// linkes Paddle (paddle 0) wird vom Elektronenstrahl gezeichnet
wire paddle_0 = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+PADDLE_WIDTH) &&
(v_cnt >= paddle_0_y) && (v_cnt < paddle_0_y + PADDLE_HEIGHT);
// rechtes Paddle (paddle 1) wird vom Elektronenstrahl gezeichnet
wire paddle_1 = (h_cnt >= HS+HBP+H-PADDLE_WIDTH) && (h_cnt < HS+HBP+H) &&
(v_cnt >= paddle_1_y) && (v_cnt < paddle_1_y + PADDLE_HEIGHT);
wire pixel = ball || border || paddle_0 || paddle_1;
// Weiss, wenn "pixel" sonst schwarz
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// PLL, um aus den 27MHz den VGA-Pixeltakt zu erzeugen
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

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//
// user_io.v
//
// user_io for the MiST board
// http://code.google.com/p/mist-board/
//
// Copyright (c) 2014 Till Harbaum <till@harbaum.org>
//
// This source file is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published
// by the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This source file is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// parameter STRLEN and the actual length of conf_str have to match
module user_io #(parameter STRLEN=0) (
input [(8*STRLEN)-1:0] conf_str,
input SPI_CLK,
input SPI_SS_IO,
output reg SPI_MISO,
input SPI_MOSI,
output reg [7:0] joystick_0,
output reg [7:0] joystick_1,
output reg [15:0] joystick_analog_0,
output reg [15:0] joystick_analog_1,
output [1:0] buttons,
output [1:0] switches,
output reg [7:0] status,
// connection to sd card emulation
input [31:0] sd_lba,
input sd_rd,
input sd_wr,
output reg sd_ack,
input sd_conf,
input sd_sdhc,
output [7:0] sd_dout, // valid on rising edge of sd_dout_strobe
output reg sd_dout_strobe,
input [7:0] sd_din,
output reg sd_din_strobe,
// ps2 keyboard emulation
input ps2_clk, // 12-16khz provided by core
output ps2_kbd_clk,
output reg ps2_kbd_data,
output ps2_mouse_clk,
output reg ps2_mouse_data,
// serial com port
input [7:0] serial_data,
input serial_strobe
);
reg [6:0] sbuf;
reg [7:0] cmd;
reg [2:0] bit_cnt; // counts bits 0-7 0-7 ...
reg [7:0] byte_cnt; // counts bytes
reg [5:0] joystick0;
reg [5:0] joystick1;
reg [3:0] but_sw;
reg [2:0] stick_idx;
assign buttons = but_sw[1:0];
assign switches = but_sw[3:2];
assign sd_dout = { sbuf, SPI_MOSI};
// this variant of user_io is for 8 bit cores (type == a4) only
wire [7:0] core_type = 8'ha4;
// command byte read by the io controller
wire [7:0] sd_cmd = { 4'h5, sd_conf, sd_sdhc, sd_wr, sd_rd };
// filter spi clock. the 8 bit gate delay is ~2.5ns in total
wire [7:0] spi_sck_D = { spi_sck_D[6:0], SPI_CLK } /* synthesis keep */;
wire spi_sck = (spi_sck && spi_sck_D != 8'h00) || (!spi_sck && spi_sck_D == 8'hff);
// drive MISO only when transmitting core id
always@(negedge spi_sck or posedge SPI_SS_IO) begin
if(SPI_SS_IO == 1) begin
SPI_MISO <= 1'bZ;
end else begin
// first byte returned is always core type, further bytes are
// command dependent
if(byte_cnt == 0) begin
SPI_MISO <= core_type[~bit_cnt];
end else begin
// reading serial fifo
if(cmd == 8'h1b) begin
// send alternating flag byte and data
if(byte_cnt[0]) SPI_MISO <= serial_out_status[~bit_cnt];
else SPI_MISO <= serial_out_byte[~bit_cnt];
end
// reading config string
else if(cmd == 8'h14) begin
// returning a byte from string
if(byte_cnt < STRLEN + 1)
SPI_MISO <= conf_str[{STRLEN - byte_cnt,~bit_cnt}];
else
SPI_MISO <= 1'b0;
end
// reading sd card status
else if(cmd == 8'h16) begin
if(byte_cnt == 1)
SPI_MISO <= sd_cmd[~bit_cnt];
else if((byte_cnt >= 2) && (byte_cnt < 6))
SPI_MISO <= sd_lba[{5-byte_cnt, ~bit_cnt}];
else
SPI_MISO <= 1'b0;
end
// reading sd card write data
else if(cmd == 8'h18)
SPI_MISO <= sd_din[~bit_cnt];
else
SPI_MISO <= 1'b0;
end
end
end
// ---------------- PS2 ---------------------
// 8 byte fifos to store ps2 bytes
localparam PS2_FIFO_BITS = 3;
// keyboard
reg [7:0] ps2_kbd_fifo [(2**PS2_FIFO_BITS)-1:0];
reg [PS2_FIFO_BITS-1:0] ps2_kbd_wptr;
reg [PS2_FIFO_BITS-1:0] ps2_kbd_rptr;
// ps2 transmitter state machine
reg [3:0] ps2_kbd_tx_state;
reg [7:0] ps2_kbd_tx_byte;
reg ps2_kbd_parity;
assign ps2_kbd_clk = ps2_clk || (ps2_kbd_tx_state == 0);
// ps2 transmitter
// Takes a byte from the FIFO and sends it in a ps2 compliant serial format.
reg ps2_kbd_r_inc;
always@(posedge ps2_clk) begin
ps2_kbd_r_inc <= 1'b0;
if(ps2_kbd_r_inc)
ps2_kbd_rptr <= ps2_kbd_rptr + 1;
// transmitter is idle?
if(ps2_kbd_tx_state == 0) begin
// data in fifo present?
if(ps2_kbd_wptr != ps2_kbd_rptr) begin
// load tx register from fifo
ps2_kbd_tx_byte <= ps2_kbd_fifo[ps2_kbd_rptr];
ps2_kbd_r_inc <= 1'b1;
// reset parity
ps2_kbd_parity <= 1'b1;
// start transmitter
ps2_kbd_tx_state <= 4'd1;
// put start bit on data line
ps2_kbd_data <= 1'b0; // start bit is 0
end
end else begin
// transmission of 8 data bits
if((ps2_kbd_tx_state >= 1)&&(ps2_kbd_tx_state < 9)) begin
ps2_kbd_data <= ps2_kbd_tx_byte[0]; // data bits
ps2_kbd_tx_byte[6:0] <= ps2_kbd_tx_byte[7:1]; // shift down
if(ps2_kbd_tx_byte[0])
ps2_kbd_parity <= !ps2_kbd_parity;
end
// transmission of parity
if(ps2_kbd_tx_state == 9)
ps2_kbd_data <= ps2_kbd_parity;
// transmission of stop bit
if(ps2_kbd_tx_state == 10)
ps2_kbd_data <= 1'b1; // stop bit is 1
// advance state machine
if(ps2_kbd_tx_state < 11)
ps2_kbd_tx_state <= ps2_kbd_tx_state + 4'd1;
else
ps2_kbd_tx_state <= 4'd0;
end
end
// mouse
reg [7:0] ps2_mouse_fifo [(2**PS2_FIFO_BITS)-1:0];
reg [PS2_FIFO_BITS-1:0] ps2_mouse_wptr;
reg [PS2_FIFO_BITS-1:0] ps2_mouse_rptr;
// ps2 transmitter state machine
reg [3:0] ps2_mouse_tx_state;
reg [7:0] ps2_mouse_tx_byte;
reg ps2_mouse_parity;
assign ps2_mouse_clk = ps2_clk || (ps2_mouse_tx_state == 0);
// ps2 transmitter
// Takes a byte from the FIFO and sends it in a ps2 compliant serial format.
reg ps2_mouse_r_inc;
always@(posedge ps2_clk) begin
ps2_mouse_r_inc <= 1'b0;
if(ps2_mouse_r_inc)
ps2_mouse_rptr <= ps2_mouse_rptr + 1;
// transmitter is idle?
if(ps2_mouse_tx_state == 0) begin
// data in fifo present?
if(ps2_mouse_wptr != ps2_mouse_rptr) begin
// load tx register from fifo
ps2_mouse_tx_byte <= ps2_mouse_fifo[ps2_mouse_rptr];
ps2_mouse_r_inc <= 1'b1;
// reset parity
ps2_mouse_parity <= 1'b1;
// start transmitter
ps2_mouse_tx_state <= 4'd1;
// put start bit on data line
ps2_mouse_data <= 1'b0; // start bit is 0
end
end else begin
// transmission of 8 data bits
if((ps2_mouse_tx_state >= 1)&&(ps2_mouse_tx_state < 9)) begin
ps2_mouse_data <= ps2_mouse_tx_byte[0]; // data bits
ps2_mouse_tx_byte[6:0] <= ps2_mouse_tx_byte[7:1]; // shift down
if(ps2_mouse_tx_byte[0])
ps2_mouse_parity <= !ps2_mouse_parity;
end
// transmission of parity
if(ps2_mouse_tx_state == 9)
ps2_mouse_data <= ps2_mouse_parity;
// transmission of stop bit
if(ps2_mouse_tx_state == 10)
ps2_mouse_data <= 1'b1; // stop bit is 1
// advance state machine
if(ps2_mouse_tx_state < 11)
ps2_mouse_tx_state <= ps2_mouse_tx_state + 4'd1;
else
ps2_mouse_tx_state <= 4'd0;
end
end
// fifo to receive serial data from core to be forwarded to io controller
// 16 byte fifo to store serial bytes
localparam SERIAL_OUT_FIFO_BITS = 6;
reg [7:0] serial_out_fifo [(2**SERIAL_OUT_FIFO_BITS)-1:0];
reg [SERIAL_OUT_FIFO_BITS-1:0] serial_out_wptr;
reg [SERIAL_OUT_FIFO_BITS-1:0] serial_out_rptr;
wire serial_out_data_available = serial_out_wptr != serial_out_rptr;
wire [7:0] serial_out_byte = serial_out_fifo[serial_out_rptr] /* synthesis keep */;
wire [7:0] serial_out_status = { 7'b1000000, serial_out_data_available};
// status[0] is reset signal from io controller and is thus used to flush
// the fifo
always @(posedge serial_strobe or posedge status[0]) begin
if(status[0] == 1) begin
serial_out_wptr <= 0;
end else begin
serial_out_fifo[serial_out_wptr] <= serial_data;
serial_out_wptr <= serial_out_wptr + 1;
end
end
always@(negedge spi_sck or posedge status[0]) begin
if(status[0] == 1) begin
serial_out_rptr <= 0;
end else begin
if((byte_cnt != 0) && (cmd == 8'h1b)) begin
// read last bit -> advance read pointer
if((bit_cnt == 7) && !byte_cnt[0] && serial_out_data_available)
serial_out_rptr <= serial_out_rptr + 1;
end
end
end
// SPI receiver
always@(posedge spi_sck or posedge SPI_SS_IO) begin
if(SPI_SS_IO == 1) begin
bit_cnt <= 3'd0;
byte_cnt <= 8'd0;
sd_ack <= 1'b0;
sd_dout_strobe <= 1'b0;
sd_din_strobe <= 1'b0;
end else begin
sd_dout_strobe <= 1'b0;
sd_din_strobe <= 1'b0;
sbuf[6:0] <= { sbuf[5:0], SPI_MOSI };
bit_cnt <= bit_cnt + 3'd1;
if((bit_cnt == 7)&&(byte_cnt != 8'd255))
byte_cnt <= byte_cnt + 8'd1;
// finished reading command byte
if(bit_cnt == 7) begin
if(byte_cnt == 0) begin
cmd <= { sbuf, SPI_MOSI};
// fetch first byte when sectore FPGA->IO command has been seen
if({ sbuf, SPI_MOSI} == 8'h18)
sd_din_strobe <= 1'b1;
if(({ sbuf, SPI_MOSI} == 8'h17) || ({ sbuf, SPI_MOSI} == 8'h18))
sd_ack <= 1'b1;
end else begin
// buttons and switches
if(cmd == 8'h01)
but_sw <= { sbuf[2:0], SPI_MOSI };
if(cmd == 8'h02)
joystick_0 <= { sbuf, SPI_MOSI };
if(cmd == 8'h03)
joystick_1 <= { sbuf, SPI_MOSI };
if(cmd == 8'h04) begin
// store incoming ps2 mouse bytes
ps2_mouse_fifo[ps2_mouse_wptr] <= { sbuf, SPI_MOSI };
ps2_mouse_wptr <= ps2_mouse_wptr + 1;
end
if(cmd == 8'h05) begin
// store incoming ps2 keyboard bytes
ps2_kbd_fifo[ps2_kbd_wptr] <= { sbuf, SPI_MOSI };
ps2_kbd_wptr <= ps2_kbd_wptr + 1;
end
if(cmd == 8'h15)
status <= { sbuf[6:0], SPI_MOSI };
// send sector IO -> FPGA
if(cmd == 8'h17) begin
// flag that download begins
// sd_dout <= { sbuf, SPI_MOSI};
sd_dout_strobe <= 1'b1;
end
// send sector FPGA -> IO
if(cmd == 8'h18)
sd_din_strobe <= 1'b1;
// send SD config IO -> FPGA
if(cmd == 8'h19) begin
// flag that download begins
// sd_dout <= { sbuf, SPI_MOSI};
// sd card knows data is config if sd_dout_strobe is asserted
// with sd_ack still being inactive (low)
sd_dout_strobe <= 1'b1;
end
// joystick analog
if(cmd == 8'h1a) begin
// first byte is joystick indes
if(byte_cnt == 1)
stick_idx <= { sbuf[1:0], SPI_MOSI };
else if(byte_cnt == 2) begin
// second byte is x axis
if(stick_idx == 0)
joystick_analog_0[15:8] <= { sbuf, SPI_MOSI };
else if(stick_idx == 1)
joystick_analog_1[15:8] <= { sbuf, SPI_MOSI };
end else if(byte_cnt == 3) begin
// third byte is y axis
if(stick_idx == 0)
joystick_analog_0[7:0] <= { sbuf, SPI_MOSI };
else if(stick_idx == 1)
joystick_analog_1[7:0] <= { sbuf, SPI_MOSI };
end
end
end
end
end
end
endmodule

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tutorials/pong/lesson1/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

301
tutorials/pong/lesson1/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

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tutorials/pong/lesson1/pong.qpf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

157
tutorials/pong/lesson1/pong.qsf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

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tutorials/pong/lesson1/pong.rbf Normal file
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tutorials/pong/lesson1/pong.v Normal file
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// A simple pong game for the MIST FPGA board
// (c) 2015 Till Harbaum
// Lesson 1: VGA signal with ball
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // width of visible area
parameter HFP = 16; // unused area before h sync
parameter HS = 96; // length of h sync
parameter HBP = 48; // unused area after h sync
parameter V = 480; // height of visible area
parameter VFP = 10; // unused area before v sync
parameter VS = 2; // length of v sync
parameter VBP = 33; // unused area after v sync
reg[9:0] h_cnt; // horizontal pixel counter
reg[9:0] v_cnt; // vertical pixel counter
// deactivate unused sdram
assign SDRAM_nCS = 1;
localparam BALL_SIZE = 16; // width and height of ball
// ball starts in center of visible area
reg [9:0] ball_x = HS + HBP + (H - BALL_SIZE)/2;
reg [9:0] ball_y = VS + VBP + (V - BALL_SIZE)/2;
// both counters start with the begin of the sync phases
// horizontal pixel counter
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// generation of the negative h sync signal
VGA_HS <= (h_cnt >= HS);
end
// vertical pixel counter
always@(posedge pixel_clock) begin
// the vertical state changes at the begin of each line
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// generation of the negative v sync signal
VGA_VS <= (v_cnt >= VS);
end
end
// signal indicating the presence of the ball at the current beam position
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
wire pixel = ball;
// white if pixel, black otherwise
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// pll to generate the VGA pixel clock from the 27Mhz board clock
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

6
tutorials/pong/lesson2/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

301
tutorials/pong/lesson2/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

30
tutorials/pong/lesson2/pong.qpf Normal file
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@@ -0,0 +1,30 @@
# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

157
tutorials/pong/lesson2/pong.qsf Normal file
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@@ -0,0 +1,157 @@
# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

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tutorials/pong/lesson2/pong.rbf Normal file
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110
tutorials/pong/lesson2/pong.v Normal file
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// A simple pong game for the MIST FPGA board
// (c) 2015 Till Harbaum
// Lesson 2: A moving ball
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // width of visible area
parameter HFP = 16; // unused area before h sync
parameter HS = 96; // length of h sync
parameter HBP = 48; // unused area after h sync
parameter V = 480; // height of visible area
parameter VFP = 10; // unused area before v sync
parameter VS = 2; // length of v sync
parameter VBP = 33; // unused area after v sync
reg[9:0] h_cnt; // horizontal pixel counter
reg[9:0] v_cnt; // vertical pixel counter
// deactivate unused sdram
assign SDRAM_nCS = 1;
localparam BORDER = 8; // height of top and bottom border
localparam BALL_SIZE = 16; // width and height of ball
localparam BALL_SPEED = 4; // step width of ball per v sync
// ball starts in center of visible area
reg [9:0] ball_x = HS + HBP + (H - BALL_SIZE)/2;
reg [9:0] ball_y = VS + VBP + (V - BALL_SIZE)/2;
// balls direction of movement
reg ball_move_x = 1'b1;
reg ball_move_y = 1'b1;
// calculate new ball position each v sync
always@(posedge VGA_VS) begin
// change horizontal movement if border has been reached
if(ball_x < HS+HBP) ball_move_x <= 1'b1;
if(ball_x >= HS+HBP+H-BALL_SIZE) ball_move_x <= 1'b0;
// horizontal movement
if(ball_move_x) ball_x <= ball_x + BALL_SPEED;
else ball_x <= ball_x - BALL_SPEED;
// change vertical movement if border has been reached
if(ball_y < VS+VBP+BORDER) ball_move_y <= 1'b1;
if(ball_y >= VS+VBP+V-BORDER-BALL_SIZE) ball_move_y <= 1'b0;
// vertical movement
if(ball_move_y) ball_y <= ball_y + BALL_SPEED;
else ball_y <= ball_y - BALL_SPEED;
end
// both counters start with the begin of the sync phases
// horizontal pixel counter
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// generation of the negative h sync signal
VGA_HS <= (h_cnt >= HS);
end
// vertical pixel counter
always@(posedge pixel_clock) begin
// the vertical state changes at the begin of each line
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// generation of the negative v sync signal
VGA_VS <= (v_cnt >= VS);
end
end
// signal indicating the presence of the ball at the current beam position
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
// top and bottom border: is being painted of the beam is horizontally within
// the playing area and vertically within the border area
wire border = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+H) &&
(((v_cnt >= VS+VBP) && (v_cnt < VS+VBP+BORDER)) ||
((v_cnt >= VS+VBP+V-BORDER) && (v_cnt < VS+VBP+V)));
wire pixel = ball || border;
// white if pixel, black otherwise
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// pll to generate the VGA pixel clock from the 27Mhz board clock
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

6
tutorials/pong/lesson3/pll.qip Normal file
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set_global_assignment -name IP_TOOL_NAME "ALTPLL"
set_global_assignment -name IP_TOOL_VERSION "13.1"
set_global_assignment -name VERILOG_FILE [file join $::quartus(qip_path) "pll.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_inst.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_bb.v"]
set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]

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tutorials/pong/lesson3/pll.v Normal file
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// megafunction wizard: %ALTPLL%
// GENERATION: STANDARD
// VERSION: WM1.0
// MODULE: altpll
// ============================================================
// File Name: pll.v
// Megafunction Name(s):
// altpll
//
// Simulation Library Files(s):
// altera_mf
// ============================================================
// ************************************************************
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
//
// 13.1.4 Build 182 03/12/2014 SJ Web Edition
// ************************************************************
//Copyright (C) 1991-2014 Altera Corporation
//Your use of Altera Corporation's design tools, logic functions
//and other software and tools, and its AMPP partner logic
//functions, and any output files from any of the foregoing
//(including device programming or simulation files), and any
//associated documentation or information are expressly subject
//to the terms and conditions of the Altera Program License
//Subscription Agreement, Altera MegaCore Function License
//Agreement, or other applicable license agreement, including,
//without limitation, that your use is for the sole purpose of
//programming logic devices manufactured by Altera and sold by
//Altera or its authorized distributors. Please refer to the
//applicable agreement for further details.
// synopsys translate_off
`timescale 1 ps / 1 ps
// synopsys translate_on
module pll (
inclk0,
c0);
input inclk0;
output c0;
wire [4:0] sub_wire0;
wire [0:0] sub_wire4 = 1'h0;
wire [0:0] sub_wire1 = sub_wire0[0:0];
wire c0 = sub_wire1;
wire sub_wire2 = inclk0;
wire [1:0] sub_wire3 = {sub_wire4, sub_wire2};
altpll altpll_component (
.inclk (sub_wire3),
.clk (sub_wire0),
.activeclock (),
.areset (1'b0),
.clkbad (),
.clkena ({6{1'b1}}),
.clkloss (),
.clkswitch (1'b0),
.configupdate (1'b0),
.enable0 (),
.enable1 (),
.extclk (),
.extclkena ({4{1'b1}}),
.fbin (1'b1),
.fbmimicbidir (),
.fbout (),
.fref (),
.icdrclk (),
.locked (),
.pfdena (1'b1),
.phasecounterselect ({4{1'b1}}),
.phasedone (),
.phasestep (1'b1),
.phaseupdown (1'b1),
.pllena (1'b1),
.scanaclr (1'b0),
.scanclk (1'b0),
.scanclkena (1'b1),
.scandata (1'b0),
.scandataout (),
.scandone (),
.scanread (1'b0),
.scanwrite (1'b0),
.sclkout0 (),
.sclkout1 (),
.vcooverrange (),
.vcounderrange ());
defparam
altpll_component.bandwidth_type = "AUTO",
altpll_component.clk0_divide_by = 44,
altpll_component.clk0_duty_cycle = 50,
altpll_component.clk0_multiply_by = 41,
altpll_component.clk0_phase_shift = "0",
altpll_component.compensate_clock = "CLK0",
altpll_component.inclk0_input_frequency = 37037,
altpll_component.intended_device_family = "Cyclone III",
altpll_component.lpm_hint = "CBX_MODULE_PREFIX=pll",
altpll_component.lpm_type = "altpll",
altpll_component.operation_mode = "NORMAL",
altpll_component.pll_type = "AUTO",
altpll_component.port_activeclock = "PORT_UNUSED",
altpll_component.port_areset = "PORT_UNUSED",
altpll_component.port_clkbad0 = "PORT_UNUSED",
altpll_component.port_clkbad1 = "PORT_UNUSED",
altpll_component.port_clkloss = "PORT_UNUSED",
altpll_component.port_clkswitch = "PORT_UNUSED",
altpll_component.port_configupdate = "PORT_UNUSED",
altpll_component.port_fbin = "PORT_UNUSED",
altpll_component.port_inclk0 = "PORT_USED",
altpll_component.port_inclk1 = "PORT_UNUSED",
altpll_component.port_locked = "PORT_UNUSED",
altpll_component.port_pfdena = "PORT_UNUSED",
altpll_component.port_phasecounterselect = "PORT_UNUSED",
altpll_component.port_phasedone = "PORT_UNUSED",
altpll_component.port_phasestep = "PORT_UNUSED",
altpll_component.port_phaseupdown = "PORT_UNUSED",
altpll_component.port_pllena = "PORT_UNUSED",
altpll_component.port_scanaclr = "PORT_UNUSED",
altpll_component.port_scanclk = "PORT_UNUSED",
altpll_component.port_scanclkena = "PORT_UNUSED",
altpll_component.port_scandata = "PORT_UNUSED",
altpll_component.port_scandataout = "PORT_UNUSED",
altpll_component.port_scandone = "PORT_UNUSED",
altpll_component.port_scanread = "PORT_UNUSED",
altpll_component.port_scanwrite = "PORT_UNUSED",
altpll_component.port_clk0 = "PORT_USED",
altpll_component.port_clk1 = "PORT_UNUSED",
altpll_component.port_clk2 = "PORT_UNUSED",
altpll_component.port_clk3 = "PORT_UNUSED",
altpll_component.port_clk4 = "PORT_UNUSED",
altpll_component.port_clk5 = "PORT_UNUSED",
altpll_component.port_clkena0 = "PORT_UNUSED",
altpll_component.port_clkena1 = "PORT_UNUSED",
altpll_component.port_clkena2 = "PORT_UNUSED",
altpll_component.port_clkena3 = "PORT_UNUSED",
altpll_component.port_clkena4 = "PORT_UNUSED",
altpll_component.port_clkena5 = "PORT_UNUSED",
altpll_component.port_extclk0 = "PORT_UNUSED",
altpll_component.port_extclk1 = "PORT_UNUSED",
altpll_component.port_extclk2 = "PORT_UNUSED",
altpll_component.port_extclk3 = "PORT_UNUSED",
altpll_component.width_clock = 5;
endmodule
// ============================================================
// CNX file retrieval info
// ============================================================
// Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
// Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
// Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
// Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
// Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
// Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
// Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
// Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
// Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
// Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
// Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
// Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
// Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
// Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "44"
// Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "25.159090"
// Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
// Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
// Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
// Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
// Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
// Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
// Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
// Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
// Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "0"
// Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
// Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
// Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
// Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "41"
// Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "25.17500000"
// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
// Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
// Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
// Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
// Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
// Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
// Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
// Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll.mif"
// Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "0"
// Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "0"
// Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
// Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
// Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
// Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
// Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
// Retrieval info: PRIVATE: SPREAD_USE STRING "0"
// Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
// Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
// Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
// Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
// Retrieval info: PRIVATE: USE_CLK0 STRING "1"
// Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
// Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
// Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
// Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "44"
// Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
// Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "41"
// Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
// Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
// Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
// Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
// Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
// Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
// Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
// Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
// Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
// Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
// Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
// Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
// Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
// Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
// Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.inc FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.cmp FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll.bsf FALSE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_inst.v TRUE
// Retrieval info: GEN_FILE: TYPE_NORMAL pll_bb.v TRUE
// Retrieval info: LIB_FILE: altera_mf
// Retrieval info: CBX_MODULE_PREFIX: ON

30
tutorials/pong/lesson3/pong.qpf Normal file
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# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2010 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 10.1 Build 153 11/29/2010 SJ Full Version
# Date created = 11:11:11 June 13, 2011
#
# -------------------------------------------------------------------------- #
QUARTUS_VERSION = "10.1"
DATE = "11:11:11 June 13, 2011"
# Revisions
PROJECT_REVISION = "pong"

158
tutorials/pong/lesson3/pong.qsf Normal file
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@@ -0,0 +1,158 @@
# -------------------------------------------------------------------------- #
#
# Copyright (C) 1991-2011 Altera Corporation
# Your use of Altera Corporation's design tools, logic functions
# and other software and tools, and its AMPP partner logic
# functions, and any output files from any of the foregoing
# (including device programming or simulation files), and any
# associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License
# Subscription Agreement, Altera MegaCore Function License
# Agreement, or other applicable license agreement, including,
# without limitation, that your use is for the sole purpose of
# programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the
# applicable agreement for further details.
#
# -------------------------------------------------------------------------- #
#
# Quartus II
# Version 11.0 Build 157 04/27/2011 SJ Full Version
# Date created = 17:14:01 April 10, 2012
#
# -------------------------------------------------------------------------- #
#
# Notes:
#
# 1) The default values for assignments are stored in the file:
# led_assignment_defaults.qdf
# If this file doesn't exist, see file:
# assignment_defaults.qdf
#
# 2) Altera recommends that you do not modify this file. This
# file is updated automatically by the Quartus II software
# and any changes you make may be lost or overwritten.
#
# -------------------------------------------------------------------------- #
set_global_assignment -name FAMILY "Cyclone III"
set_global_assignment -name DEVICE EP3C25E144C8
set_global_assignment -name TOP_LEVEL_ENTITY pong
set_global_assignment -name ORIGINAL_QUARTUS_VERSION 11.0
set_global_assignment -name PROJECT_CREATION_TIME_DATE "17:14:01 APRIL 10, 2012"
set_global_assignment -name LAST_QUARTUS_VERSION 13.1
set_global_assignment -name MIN_CORE_JUNCTION_TEMP 0
set_global_assignment -name MAX_CORE_JUNCTION_TEMP 85
set_global_assignment -name DEVICE_FILTER_PACKAGE "ANY QFP"
set_global_assignment -name DEVICE_FILTER_SPEED_GRADE 8
set_global_assignment -name ERROR_CHECK_FREQUENCY_DIVISOR 1
set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
set_global_assignment -name CRC_ERROR_OPEN_DRAIN OFF
set_global_assignment -name RESERVE_ALL_UNUSED_PINS_WEAK_PULLUP "AS INPUT TRI-STATED"
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -rise
set_global_assignment -name OUTPUT_IO_TIMING_NEAR_END_VMEAS "HALF VCCIO" -fall
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -rise
set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" -fall
set_global_assignment -name CYCLONEIII_CONFIGURATION_SCHEME "PASSIVE SERIAL"
set_global_assignment -name GENERATE_RBF_FILE ON
set_global_assignment -name FORCE_CONFIGURATION_VCCIO ON
set_global_assignment -name STRATIX_DEVICE_IO_STANDARD "3.3-V LVTTL"
set_location_assignment PIN_7 -to LED
set_location_assignment PIN_22 -to CLOCK_50[0]
set_location_assignment PIN_23 -to CLOCK_50[1]
set_location_assignment PIN_128 -to CLOCK_32[0]
set_location_assignment PIN_129 -to CLOCK_32[1]
set_location_assignment PIN_54 -to CLOCK_27[0]
set_location_assignment PIN_55 -to CLOCK_27[1]
set_location_assignment PIN_144 -to VGA_R[5]
set_location_assignment PIN_143 -to VGA_R[4]
set_location_assignment PIN_142 -to VGA_R[3]
set_location_assignment PIN_141 -to VGA_R[2]
set_location_assignment PIN_137 -to VGA_R[1]
set_location_assignment PIN_135 -to VGA_R[0]
set_location_assignment PIN_133 -to VGA_B[5]
set_location_assignment PIN_132 -to VGA_B[4]
set_location_assignment PIN_125 -to VGA_B[3]
set_location_assignment PIN_121 -to VGA_B[2]
set_location_assignment PIN_120 -to VGA_B[1]
set_location_assignment PIN_115 -to VGA_B[0]
set_location_assignment PIN_114 -to VGA_G[5]
set_location_assignment PIN_113 -to VGA_G[4]
set_location_assignment PIN_112 -to VGA_G[3]
set_location_assignment PIN_111 -to VGA_G[2]
set_location_assignment PIN_110 -to VGA_G[1]
set_location_assignment PIN_106 -to VGA_G[0]
set_location_assignment PIN_136 -to VGA_VS
set_location_assignment PIN_119 -to VGA_HS
set_location_assignment PIN_65 -to AUDIO_L
set_location_assignment PIN_80 -to AUDIO_R
set_location_assignment PIN_46 -to UART_TX
set_location_assignment PIN_31 -to UART_RX
set_location_assignment PIN_105 -to SPI_DO
set_location_assignment PIN_88 -to SPI_DI
set_location_assignment PIN_126 -to SPI_SCK
set_location_assignment PIN_127 -to SPI_SS2
set_location_assignment PIN_91 -to SPI_SS3
set_location_assignment PIN_90 -to SPI_SS4
set_location_assignment PIN_13 -to CONF_DATA0
set_location_assignment PIN_49 -to SDRAM_A[0]
set_location_assignment PIN_44 -to SDRAM_A[1]
set_location_assignment PIN_42 -to SDRAM_A[2]
set_location_assignment PIN_39 -to SDRAM_A[3]
set_location_assignment PIN_4 -to SDRAM_A[4]
set_location_assignment PIN_6 -to SDRAM_A[5]
set_location_assignment PIN_8 -to SDRAM_A[6]
set_location_assignment PIN_10 -to SDRAM_A[7]
set_location_assignment PIN_11 -to SDRAM_A[8]
set_location_assignment PIN_28 -to SDRAM_A[9]
set_location_assignment PIN_50 -to SDRAM_A[10]
set_location_assignment PIN_30 -to SDRAM_A[11]
set_location_assignment PIN_32 -to SDRAM_A[12]
set_location_assignment PIN_83 -to SDRAM_DQ[0]
set_location_assignment PIN_79 -to SDRAM_DQ[1]
set_location_assignment PIN_77 -to SDRAM_DQ[2]
set_location_assignment PIN_76 -to SDRAM_DQ[3]
set_location_assignment PIN_72 -to SDRAM_DQ[4]
set_location_assignment PIN_71 -to SDRAM_DQ[5]
set_location_assignment PIN_69 -to SDRAM_DQ[6]
set_location_assignment PIN_68 -to SDRAM_DQ[7]
set_location_assignment PIN_86 -to SDRAM_DQ[8]
set_location_assignment PIN_87 -to SDRAM_DQ[9]
set_location_assignment PIN_98 -to SDRAM_DQ[10]
set_location_assignment PIN_99 -to SDRAM_DQ[11]
set_location_assignment PIN_100 -to SDRAM_DQ[12]
set_location_assignment PIN_101 -to SDRAM_DQ[13]
set_location_assignment PIN_103 -to SDRAM_DQ[14]
set_location_assignment PIN_104 -to SDRAM_DQ[15]
set_location_assignment PIN_58 -to SDRAM_BA[0]
set_location_assignment PIN_51 -to SDRAM_BA[1]
set_location_assignment PIN_85 -to SDRAM_DQMH
set_location_assignment PIN_67 -to SDRAM_DQML
set_location_assignment PIN_60 -to SDRAM_nRAS
set_location_assignment PIN_64 -to SDRAM_nCAS
set_location_assignment PIN_66 -to SDRAM_nWE
set_location_assignment PIN_59 -to SDRAM_nCS
set_location_assignment PIN_33 -to SDRAM_CKE
set_location_assignment PIN_43 -to SDRAM_CLK
set_global_assignment -name ENABLE_SIGNALTAP OFF
set_global_assignment -name USE_SIGNALTAP_FILE stp1.stp
set_global_assignment -name CYCLONEII_RESERVE_NCEO_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA0_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DATA1_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_FLASH_NCE_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name RESERVE_DCLK_AFTER_CONFIGURATION "USE AS REGULAR IO"
set_global_assignment -name OPTIMIZE_HOLD_TIMING "ALL PATHS"
set_global_assignment -name OPTIMIZE_MULTI_CORNER_TIMING ON
set_global_assignment -name FITTER_EFFORT "FAST FIT"
set_global_assignment -name VERILOG_FILE user_io.v
set_global_assignment -name VERILOG_FILE pll.v
set_global_assignment -name VERILOG_FILE pong.v
set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top

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// A simple pong game for the MIST FPGA board
// (c) 2015 Till Harbaum
// Lesson 3: using the joystick
module pong (
input [1:0] CLOCK_27,
output SDRAM_nCS,
// spi interface to mists io processor
output SPI_DO,
input SPI_DI,
input SPI_SCK,
input CONF_DATA0,
output reg VGA_HS,
output reg VGA_VS,
output [5:0] VGA_R,
output [5:0] VGA_G,
output [5:0] VGA_B
);
wire [7:0] joystick_0;
wire [7:0] joystick_1;
// Include user_io.v submodule. This dies the major part of the communication with
// the arm io controller. We are only using the joystick here
user_io user_io (
.SPI_CLK ( SPI_SCK ),
.SPI_SS_IO ( CONF_DATA0 ),
.SPI_MISO ( SPI_DO ),
.SPI_MOSI ( SPI_DI ),
.joystick_0 ( joystick_0 ),
.joystick_1 ( joystick_1 )
);
// 640x480 60HZ VESA laut http://tinyvga.com/vga-timing/640x480@60Hz
parameter H = 640; // width of visible area
parameter HFP = 16; // unused area before h sync
parameter HS = 96; // length of h sync
parameter HBP = 48; // unused area after h sync
parameter V = 480; // height of visible area
parameter VFP = 10; // unused area before v sync
parameter VS = 2; // length of v sync
parameter VBP = 33; // unused area after v sync
reg[9:0] h_cnt; // horizontal pixel counter
reg[9:0] v_cnt; // vertical pixel counter
// deactivate unused sdram
assign SDRAM_nCS = 1;
localparam BORDER = 8; // height of top and bottom border
localparam BALL_SIZE = 16; // width and height of ball
localparam BALL_SPEED = 4; // step width of ball per v sync
// ball starts in center of visible area
reg [9:0] ball_x = HS + HBP + (H - BALL_SIZE)/2;
reg [9:0] ball_y = VS + VBP + (V - BALL_SIZE)/2;
// balls direction of movement
reg ball_move_x = 1'b1;
reg ball_move_y = 1'b1;
// vertical position of the paddles
localparam PADDLE_WIDTH = BALL_SIZE; // width of paddle
localparam PADDLE_HEIGHT = 4*BALL_SIZE; // heihgt of paddle
localparam PADDLE_SPEED = 4; // step width of paddle per v sync
reg [9:0] paddle_0_y = VS + VBP + (V - PADDLE_HEIGHT)/2;
reg [9:0] paddle_1_y = VS + VBP + (V - PADDLE_HEIGHT)/2;
// update paddle position every v sync
always@(posedge VGA_VS) begin
// move left paddle up if it isn't already at the top
if(joystick_0[3] && (paddle_0_y > VS + VBP + BORDER))
paddle_0_y <= paddle_0_y - PADDLE_SPEED;
// move left paddle down if it isn't already at the bottom
if(joystick_0[2] && (paddle_0_y < VS + VBP + V - BORDER - PADDLE_HEIGHT))
paddle_0_y <= paddle_0_y + PADDLE_SPEED;
// move right paddle up if it isn't already at the top
if(joystick_1[3] && (paddle_1_y > VS + VBP + BORDER))
paddle_1_y <= paddle_1_y - PADDLE_SPEED;
// move right paddle down if it isn't already at the bottom
if(joystick_1[2] && (paddle_1_y < VS + VBP + V - BORDER - PADDLE_HEIGHT))
paddle_1_y <= paddle_1_y + PADDLE_SPEED;
end
// generate collision signals
wire ball_hits_paddle_0 =
(ball_x < HS+HBP+PADDLE_WIDTH) && // ball is in range of left paddle
(ball_y > paddle_0_y - BALL_SIZE) && // ball is below paddles top edge
(ball_y < paddle_0_y + PADDLE_HEIGHT); // ball is above paddles bottom edge
wire ball_hits_paddle_1 =
(ball_x > HS+HBP+H-PADDLE_WIDTH-BALL_SIZE) && // ball is in range of right paddle
(ball_y > paddle_1_y - BALL_SIZE) && // ball is below paddles top edge
(ball_y < paddle_1_y + PADDLE_HEIGHT); // ball is above paddles bottom edge
wire ball_exits_left = ball_x <= HS+HBP; // ball leaves playfield to the left
wire ball_exits_right = ball_x >= HS+HBP+H-BALL_SIZE; // -"- to the right
reg game_running = 1'b0; // game is running
// start/stop of game
always@(posedge VGA_VS) begin
// check if ball has reached left or right border and stop game if yes
if(ball_exits_left || ball_exits_right)
game_running <= 1'b0;
// any fire button starts game
if(joystick_0[4] || joystick_1[4])
game_running <= 1'b1;
end
// calculate new ball position each v sync
always@(posedge VGA_VS) begin
// change horizontal movement if paddle is being hit or if the ball is
// about to leave the playfield area
if(ball_hits_paddle_0 || ball_exits_left) ball_move_x <= 1'b1;
if(ball_hits_paddle_1 || ball_exits_right) ball_move_x <= 1'b0;
// change vertical movement if border has been reached
if(ball_y < VS+VBP+BORDER) ball_move_y <= 1'b1;
if(ball_y >= VS+VBP+V-BORDER-BALL_SIZE) ball_move_y <= 1'b0;
// move ball as long as game runs
if(game_running) begin
// horizontal movement
if(ball_move_x) ball_x <= ball_x + BALL_SPEED;
else ball_x <= ball_x - BALL_SPEED;
// vertical movement
if(ball_move_y) ball_y <= ball_y + BALL_SPEED;
else ball_y <= ball_y - BALL_SPEED;
end else begin
// center ball if game is stopped
ball_x <= HS + HBP + (H - BALL_SIZE)/2;
ball_y <= VS + VBP + (V - BALL_SIZE)/2;
end
end
// both counters start with the begin of the sync phases
// horizontal pixel counter
always@(posedge pixel_clock) begin
if(h_cnt==HS+HBP+H+HFP-1) h_cnt <= 0;
else h_cnt <= h_cnt + 1;
// generation of the negative h sync signal
VGA_HS <= (h_cnt >= HS);
end
// vertical pixel counter
always@(posedge pixel_clock) begin
// the vertical state changes at the begin of each line
if(h_cnt == 0) begin
if(v_cnt==VS+VBP+V+VFP-1) v_cnt <= 0;
else v_cnt <= v_cnt + 1;
// generation of the negative v sync signal
VGA_VS <= (v_cnt >= VS);
end
end
// signal indicating the presence of the ball at the current beam position
wire ball = (h_cnt >= ball_x) && (h_cnt < ball_x + BALL_SIZE) &&
(v_cnt >= ball_y) && (v_cnt < ball_y + BALL_SIZE);
// top and bottom border: is being painted of the beam is horizontally within
// the playing area and vertically within the border area
wire border = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+H) &&
(((v_cnt >= VS+VBP) && (v_cnt < VS+VBP+BORDER)) ||
((v_cnt >= VS+VBP+V-BORDER) && (v_cnt < VS+VBP+V)));
// left paddle (paddle 0) is being drawn
wire paddle_0 = (h_cnt >= HS+HBP) && (h_cnt < HS+HBP+PADDLE_WIDTH) &&
(v_cnt >= paddle_0_y) && (v_cnt < paddle_0_y + PADDLE_HEIGHT);
// right paddle (paddle 1) is being drawn
wire paddle_1 = (h_cnt >= HS+HBP+H-PADDLE_WIDTH) && (h_cnt < HS+HBP+H) &&
(v_cnt >= paddle_1_y) && (v_cnt < paddle_1_y + PADDLE_HEIGHT);
wire pixel = ball || border || paddle_0 || paddle_1;
// white if pixel, black otherwise
assign VGA_R = pixel?6'b111111:6'b000000;
assign VGA_G = pixel?6'b111111:6'b000000;
assign VGA_B = pixel?6'b111111:6'b000000;
// pll to generate the VGA pixel clock from the 27Mhz board clock
pll pll (
.inclk0(CLOCK_27[0]),
.c0(pixel_clock)
);
endmodule

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//
// user_io.v
//
// user_io for the MiST board
// http://code.google.com/p/mist-board/
//
// Copyright (c) 2014 Till Harbaum <till@harbaum.org>
//
// This source file is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published
// by the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This source file is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// parameter STRLEN and the actual length of conf_str have to match
module user_io #(parameter STRLEN=0) (
input [(8*STRLEN)-1:0] conf_str,
input SPI_CLK,
input SPI_SS_IO,
output reg SPI_MISO,
input SPI_MOSI,
output reg [7:0] joystick_0,
output reg [7:0] joystick_1,
output reg [15:0] joystick_analog_0,
output reg [15:0] joystick_analog_1,
output [1:0] buttons,
output [1:0] switches,
output reg [7:0] status,
// connection to sd card emulation
input [31:0] sd_lba,
input sd_rd,
input sd_wr,
output reg sd_ack,
input sd_conf,
input sd_sdhc,
output [7:0] sd_dout, // valid on rising edge of sd_dout_strobe
output reg sd_dout_strobe,
input [7:0] sd_din,
output reg sd_din_strobe,
// ps2 keyboard emulation
input ps2_clk, // 12-16khz provided by core
output ps2_kbd_clk,
output reg ps2_kbd_data,
output ps2_mouse_clk,
output reg ps2_mouse_data,
// serial com port
input [7:0] serial_data,
input serial_strobe
);
reg [6:0] sbuf;
reg [7:0] cmd;
reg [2:0] bit_cnt; // counts bits 0-7 0-7 ...
reg [7:0] byte_cnt; // counts bytes
reg [5:0] joystick0;
reg [5:0] joystick1;
reg [3:0] but_sw;
reg [2:0] stick_idx;
assign buttons = but_sw[1:0];
assign switches = but_sw[3:2];
assign sd_dout = { sbuf, SPI_MOSI};
// this variant of user_io is for 8 bit cores (type == a4) only
wire [7:0] core_type = 8'ha4;
// command byte read by the io controller
wire [7:0] sd_cmd = { 4'h5, sd_conf, sd_sdhc, sd_wr, sd_rd };
// filter spi clock. the 8 bit gate delay is ~2.5ns in total
wire [7:0] spi_sck_D = { spi_sck_D[6:0], SPI_CLK } /* synthesis keep */;
wire spi_sck = (spi_sck && spi_sck_D != 8'h00) || (!spi_sck && spi_sck_D == 8'hff);
// drive MISO only when transmitting core id
always@(negedge spi_sck or posedge SPI_SS_IO) begin
if(SPI_SS_IO == 1) begin
SPI_MISO <= 1'bZ;
end else begin
// first byte returned is always core type, further bytes are
// command dependent
if(byte_cnt == 0) begin
SPI_MISO <= core_type[~bit_cnt];
end else begin
// reading serial fifo
if(cmd == 8'h1b) begin
// send alternating flag byte and data
if(byte_cnt[0]) SPI_MISO <= serial_out_status[~bit_cnt];
else SPI_MISO <= serial_out_byte[~bit_cnt];
end
// reading config string
else if(cmd == 8'h14) begin
// returning a byte from string
if(byte_cnt < STRLEN + 1)
SPI_MISO <= conf_str[{STRLEN - byte_cnt,~bit_cnt}];
else
SPI_MISO <= 1'b0;
end
// reading sd card status
else if(cmd == 8'h16) begin
if(byte_cnt == 1)
SPI_MISO <= sd_cmd[~bit_cnt];
else if((byte_cnt >= 2) && (byte_cnt < 6))
SPI_MISO <= sd_lba[{5-byte_cnt, ~bit_cnt}];
else
SPI_MISO <= 1'b0;
end
// reading sd card write data
else if(cmd == 8'h18)
SPI_MISO <= sd_din[~bit_cnt];
else
SPI_MISO <= 1'b0;
end
end
end
// ---------------- PS2 ---------------------
// 8 byte fifos to store ps2 bytes
localparam PS2_FIFO_BITS = 3;
// keyboard
reg [7:0] ps2_kbd_fifo [(2**PS2_FIFO_BITS)-1:0];
reg [PS2_FIFO_BITS-1:0] ps2_kbd_wptr;
reg [PS2_FIFO_BITS-1:0] ps2_kbd_rptr;
// ps2 transmitter state machine
reg [3:0] ps2_kbd_tx_state;
reg [7:0] ps2_kbd_tx_byte;
reg ps2_kbd_parity;
assign ps2_kbd_clk = ps2_clk || (ps2_kbd_tx_state == 0);
// ps2 transmitter
// Takes a byte from the FIFO and sends it in a ps2 compliant serial format.
reg ps2_kbd_r_inc;
always@(posedge ps2_clk) begin
ps2_kbd_r_inc <= 1'b0;
if(ps2_kbd_r_inc)
ps2_kbd_rptr <= ps2_kbd_rptr + 1;
// transmitter is idle?
if(ps2_kbd_tx_state == 0) begin
// data in fifo present?
if(ps2_kbd_wptr != ps2_kbd_rptr) begin
// load tx register from fifo
ps2_kbd_tx_byte <= ps2_kbd_fifo[ps2_kbd_rptr];
ps2_kbd_r_inc <= 1'b1;
// reset parity
ps2_kbd_parity <= 1'b1;
// start transmitter
ps2_kbd_tx_state <= 4'd1;
// put start bit on data line
ps2_kbd_data <= 1'b0; // start bit is 0
end
end else begin
// transmission of 8 data bits
if((ps2_kbd_tx_state >= 1)&&(ps2_kbd_tx_state < 9)) begin
ps2_kbd_data <= ps2_kbd_tx_byte[0]; // data bits
ps2_kbd_tx_byte[6:0] <= ps2_kbd_tx_byte[7:1]; // shift down
if(ps2_kbd_tx_byte[0])
ps2_kbd_parity <= !ps2_kbd_parity;
end
// transmission of parity
if(ps2_kbd_tx_state == 9)
ps2_kbd_data <= ps2_kbd_parity;
// transmission of stop bit
if(ps2_kbd_tx_state == 10)
ps2_kbd_data <= 1'b1; // stop bit is 1
// advance state machine
if(ps2_kbd_tx_state < 11)
ps2_kbd_tx_state <= ps2_kbd_tx_state + 4'd1;
else
ps2_kbd_tx_state <= 4'd0;
end
end
// mouse
reg [7:0] ps2_mouse_fifo [(2**PS2_FIFO_BITS)-1:0];
reg [PS2_FIFO_BITS-1:0] ps2_mouse_wptr;
reg [PS2_FIFO_BITS-1:0] ps2_mouse_rptr;
// ps2 transmitter state machine
reg [3:0] ps2_mouse_tx_state;
reg [7:0] ps2_mouse_tx_byte;
reg ps2_mouse_parity;
assign ps2_mouse_clk = ps2_clk || (ps2_mouse_tx_state == 0);
// ps2 transmitter
// Takes a byte from the FIFO and sends it in a ps2 compliant serial format.
reg ps2_mouse_r_inc;
always@(posedge ps2_clk) begin
ps2_mouse_r_inc <= 1'b0;
if(ps2_mouse_r_inc)
ps2_mouse_rptr <= ps2_mouse_rptr + 1;
// transmitter is idle?
if(ps2_mouse_tx_state == 0) begin
// data in fifo present?
if(ps2_mouse_wptr != ps2_mouse_rptr) begin
// load tx register from fifo
ps2_mouse_tx_byte <= ps2_mouse_fifo[ps2_mouse_rptr];
ps2_mouse_r_inc <= 1'b1;
// reset parity
ps2_mouse_parity <= 1'b1;
// start transmitter
ps2_mouse_tx_state <= 4'd1;
// put start bit on data line
ps2_mouse_data <= 1'b0; // start bit is 0
end
end else begin
// transmission of 8 data bits
if((ps2_mouse_tx_state >= 1)&&(ps2_mouse_tx_state < 9)) begin
ps2_mouse_data <= ps2_mouse_tx_byte[0]; // data bits
ps2_mouse_tx_byte[6:0] <= ps2_mouse_tx_byte[7:1]; // shift down
if(ps2_mouse_tx_byte[0])
ps2_mouse_parity <= !ps2_mouse_parity;
end
// transmission of parity
if(ps2_mouse_tx_state == 9)
ps2_mouse_data <= ps2_mouse_parity;
// transmission of stop bit
if(ps2_mouse_tx_state == 10)
ps2_mouse_data <= 1'b1; // stop bit is 1
// advance state machine
if(ps2_mouse_tx_state < 11)
ps2_mouse_tx_state <= ps2_mouse_tx_state + 4'd1;
else
ps2_mouse_tx_state <= 4'd0;
end
end
// fifo to receive serial data from core to be forwarded to io controller
// 16 byte fifo to store serial bytes
localparam SERIAL_OUT_FIFO_BITS = 6;
reg [7:0] serial_out_fifo [(2**SERIAL_OUT_FIFO_BITS)-1:0];
reg [SERIAL_OUT_FIFO_BITS-1:0] serial_out_wptr;
reg [SERIAL_OUT_FIFO_BITS-1:0] serial_out_rptr;
wire serial_out_data_available = serial_out_wptr != serial_out_rptr;
wire [7:0] serial_out_byte = serial_out_fifo[serial_out_rptr] /* synthesis keep */;
wire [7:0] serial_out_status = { 7'b1000000, serial_out_data_available};
// status[0] is reset signal from io controller and is thus used to flush
// the fifo
always @(posedge serial_strobe or posedge status[0]) begin
if(status[0] == 1) begin
serial_out_wptr <= 0;
end else begin
serial_out_fifo[serial_out_wptr] <= serial_data;
serial_out_wptr <= serial_out_wptr + 1;
end
end
always@(negedge spi_sck or posedge status[0]) begin
if(status[0] == 1) begin
serial_out_rptr <= 0;
end else begin
if((byte_cnt != 0) && (cmd == 8'h1b)) begin
// read last bit -> advance read pointer
if((bit_cnt == 7) && !byte_cnt[0] && serial_out_data_available)
serial_out_rptr <= serial_out_rptr + 1;
end
end
end
// SPI receiver
always@(posedge spi_sck or posedge SPI_SS_IO) begin
if(SPI_SS_IO == 1) begin
bit_cnt <= 3'd0;
byte_cnt <= 8'd0;
sd_ack <= 1'b0;
sd_dout_strobe <= 1'b0;
sd_din_strobe <= 1'b0;
end else begin
sd_dout_strobe <= 1'b0;
sd_din_strobe <= 1'b0;
sbuf[6:0] <= { sbuf[5:0], SPI_MOSI };
bit_cnt <= bit_cnt + 3'd1;
if((bit_cnt == 7)&&(byte_cnt != 8'd255))
byte_cnt <= byte_cnt + 8'd1;
// finished reading command byte
if(bit_cnt == 7) begin
if(byte_cnt == 0) begin
cmd <= { sbuf, SPI_MOSI};
// fetch first byte when sectore FPGA->IO command has been seen
if({ sbuf, SPI_MOSI} == 8'h18)
sd_din_strobe <= 1'b1;
if(({ sbuf, SPI_MOSI} == 8'h17) || ({ sbuf, SPI_MOSI} == 8'h18))
sd_ack <= 1'b1;
end else begin
// buttons and switches
if(cmd == 8'h01)
but_sw <= { sbuf[2:0], SPI_MOSI };
if(cmd == 8'h02)
joystick_0 <= { sbuf, SPI_MOSI };
if(cmd == 8'h03)
joystick_1 <= { sbuf, SPI_MOSI };
if(cmd == 8'h04) begin
// store incoming ps2 mouse bytes
ps2_mouse_fifo[ps2_mouse_wptr] <= { sbuf, SPI_MOSI };
ps2_mouse_wptr <= ps2_mouse_wptr + 1;
end
if(cmd == 8'h05) begin
// store incoming ps2 keyboard bytes
ps2_kbd_fifo[ps2_kbd_wptr] <= { sbuf, SPI_MOSI };
ps2_kbd_wptr <= ps2_kbd_wptr + 1;
end
if(cmd == 8'h15)
status <= { sbuf[6:0], SPI_MOSI };
// send sector IO -> FPGA
if(cmd == 8'h17) begin
// flag that download begins
// sd_dout <= { sbuf, SPI_MOSI};
sd_dout_strobe <= 1'b1;
end
// send sector FPGA -> IO
if(cmd == 8'h18)
sd_din_strobe <= 1'b1;
// send SD config IO -> FPGA
if(cmd == 8'h19) begin
// flag that download begins
// sd_dout <= { sbuf, SPI_MOSI};
// sd card knows data is config if sd_dout_strobe is asserted
// with sd_ack still being inactive (low)
sd_dout_strobe <= 1'b1;
end
// joystick analog
if(cmd == 8'h1a) begin
// first byte is joystick indes
if(byte_cnt == 1)
stick_idx <= { sbuf[1:0], SPI_MOSI };
else if(byte_cnt == 2) begin
// second byte is x axis
if(stick_idx == 0)
joystick_analog_0[15:8] <= { sbuf, SPI_MOSI };
else if(stick_idx == 1)
joystick_analog_1[15:8] <= { sbuf, SPI_MOSI };
end else if(byte_cnt == 3) begin
// third byte is y axis
if(stick_idx == 0)
joystick_analog_0[7:0] <= { sbuf, SPI_MOSI };
else if(stick_idx == 1)
joystick_analog_1[7:0] <= { sbuf, SPI_MOSI };
end
end
end
end
end
end
endmodule

6
tutorials/readme.md
View File

@@ -6,3 +6,9 @@ LED
A blinking led: A simple "Hello World" for the MIST board. Use this as
a quick start to compile your first own core.
Pong
----
A very simple implementation of the pong. Demonstrates the generation
of VGA video signals and the usage of joysticks.