Add logic analyzer block to control FPGA

master
Timothy Pearson 11 years ago
parent 0ffb793cb5
commit 1eb48edeba

@ -0,0 +1,44 @@
`timescale 1ns / 1ps
//////////////////////////////////////////////////////////////////////////////////
//
// (c) 2014 Timothy Pearson, Raptor Engineering
// Released into the Public Domain
//
//////////////////////////////////////////////////////////////////////////////////
module logic_analyzer_data_storage(
input clka,
input clkb,
input [63:0] dina,
input [63:0] dinb,
input [8:0] addra,
input [8:0] addrb,
input wea,
input web,
output reg [63:0] douta,
output reg [63:0] doutb);
parameter RAM_WIDTH = 64;
// Xilinx specific directive
(* RAM_STYLE="BLOCK" *)
reg [RAM_WIDTH-1:0] data_storage_ram [(2**9)-1:0];
always @(posedge clka) begin
douta <= data_storage_ram[addra];
if (wea) begin
data_storage_ram[addra] <= dina;
douta <= dina;
end
end
always @(posedge clkb) begin
doutb <= data_storage_ram[addrb];
if (web) begin
data_storage_ram[addrb] <= dinb;
doutb <= dinb;
end
end
endmodule

@ -114,6 +114,26 @@ module main(
.wea(lcd_data_storage_wea), .web(lcd_data_storage_web),
.douta(lcd_data_storage_douta), .doutb(lcd_data_storage_doutb));
wire logic_analyzer_data_storage_clka;
wire logic_analyzer_data_storage_clkb;
reg [63:0] logic_analyzer_data_storage_dina;
reg [63:0] logic_analyzer_data_storage_dinb;
reg [8:0] logic_analyzer_data_storage_addra;
reg [8:0] logic_analyzer_data_storage_addrb;
reg logic_analyzer_data_storage_wea;
reg logic_analyzer_data_storage_web;
wire [63:0] logic_analyzer_data_storage_douta;
wire [63:0] logic_analyzer_data_storage_doutb;
assign logic_analyzer_data_storage_clka = clk;
assign logic_analyzer_data_storage_clkb = clk;
logic_analyzer_data_storage logic_analyzer_data_storage(.clka(logic_analyzer_data_storage_clka), .clkb(logic_analyzer_data_storage_clkb),
.dina(logic_analyzer_data_storage_dina), .dinb(logic_analyzer_data_storage_dinb),
.addra(logic_analyzer_data_storage_addra), .addrb(logic_analyzer_data_storage_addrb),
.wea(logic_analyzer_data_storage_wea), .web(logic_analyzer_data_storage_web),
.douta(logic_analyzer_data_storage_douta), .doutb(logic_analyzer_data_storage_doutb));
//-----------------------------------------------------------------------------------
//
// Create a 12.5MHz clock for the seven-segement LED emulator
@ -215,6 +235,47 @@ module main(
end
end
//-----------------------------------------------------------------------------------
//
// Logic analyzer
//
//-----------------------------------------------------------------------------------
reg logic_analyzer_trigger;
reg logic_analyzer_trigger_prev;
reg [9:0] logic_analyzer_address_counter;
always @(posedge clk) begin
// Trigger
logic_analyzer_trigger = ~userlogic_reset; // Trigger on userlogic_reset falling edge
if ((logic_analyzer_trigger == 1) && (logic_analyzer_trigger_prev == 0)) begin
logic_analyzer_address_counter = 0;
end
// Data load
if (logic_analyzer_address_counter < 9'b100000000) begin
logic_analyzer_data_storage_addrb = logic_analyzer_address_counter;
// Connect signals to logic analyzer
logic_analyzer_data_storage_dinb[3:0] = four_bit_leds;
logic_analyzer_data_storage_dinb[7:4] = four_bit_switches;
logic_analyzer_data_storage_dinb[15:8] = eight_bit_leds;
logic_analyzer_data_storage_dinb[23:16] = eight_bit_switches;
logic_analyzer_data_storage_dinb[27:24] = sseg_mux;
logic_analyzer_data_storage_dinb[35:28] = sseg_data;
logic_analyzer_data_storage_dinb[43:36] = usermem_data;
logic_analyzer_data_storage_dinb[59:44] = usermem_address;
logic_analyzer_data_storage_dinb[60] = usermem_wen;
logic_analyzer_data_storage_dinb[61] = usermem_wait;
logic_analyzer_data_storage_dinb[62] = 1'b0;
logic_analyzer_data_storage_dinb[63] = 1'b0;
logic_analyzer_data_storage_web = 1'b1;
logic_analyzer_address_counter = logic_analyzer_address_counter + 1;
end
logic_analyzer_trigger_prev = logic_analyzer_trigger;
end
//-----------------------------------------------------------------------------------
//
@ -247,10 +308,12 @@ module main(
gpmc_address_reg = gpmc_address;
data_storage_write_enable = 1'b0;
lcd_data_storage_wea = 1'b0;
logic_analyzer_data_storage_wea = 1'b0;
end
if (gpmc_wen_reg == 1'b1) begin
data_storage_write_enable = 1'b0;
lcd_data_storage_wea = 1'b0;
logic_analyzer_data_storage_wea = 1'b0;
end
if (gpmc_address_reg[RAM_ADDR_BITS] == 1'b1) begin
@ -320,6 +383,7 @@ module main(
// 0x0c: User device control
// Bit 0: User logic reset
// 0x20 - 0x3f: LCD data area
// 0x1000 - 0x1fff: Logic analyzer data area (read only)
if (gpmc_wen_reg == 1'b0) begin
if (gpmc_address_reg[(RAM_ADDR_BITS-1):5] == 1) begin // Address range 0x20 - 0x3f
lcd_data_storage_addra = gpmc_address_reg[4:0];
@ -355,6 +419,35 @@ module main(
lcd_data_storage_addra = gpmc_address_reg[4:0];
lcd_data_storage_wea = 1'b0;
gpmc_data_out = lcd_data_storage_douta;
end else if (gpmc_address_reg[(RAM_ADDR_BITS-1):12] == 1) begin // Address range 0x1000 - 0x1fff
logic_analyzer_data_storage_addra = gpmc_address_reg[12:3];
logic_analyzer_data_storage_wea = 1'b0;
case (gpmc_address_reg[2:0])
0: begin
gpmc_data_out = logic_analyzer_data_storage_douta[7:0];
end
1: begin
gpmc_data_out = logic_analyzer_data_storage_douta[15:8];
end
2: begin
gpmc_data_out = logic_analyzer_data_storage_douta[23:16];
end
3: begin
gpmc_data_out = logic_analyzer_data_storage_douta[31:24];
end
4: begin
gpmc_data_out = logic_analyzer_data_storage_douta[39:32];
end
5: begin
gpmc_data_out = logic_analyzer_data_storage_douta[47:40];
end
6: begin
gpmc_data_out = logic_analyzer_data_storage_douta[55:48];
end
7: begin
gpmc_data_out = logic_analyzer_data_storage_douta[63:56];
end
endcase
end else begin
case (gpmc_address_reg[(RAM_ADDR_BITS-1):0])
0: begin

@ -0,0 +1 @@
../../../common/logic_analyzer_data_storage.v

@ -17,18 +17,22 @@
<files>
<file xil_pn:name="data_storage.v" xil_pn:type="FILE_VERILOG">
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="1"/>
<association xil_pn:name="Implementation" xil_pn:seqID="2"/>
<association xil_pn:name="Implementation" xil_pn:seqID="3"/>
</file>
<file xil_pn:name="lcd_data_storage.v" xil_pn:type="FILE_VERILOG">
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="2"/>
<association xil_pn:name="Implementation" xil_pn:seqID="1"/>
<association xil_pn:name="Implementation" xil_pn:seqID="2"/>
</file>
<file xil_pn:name="main.ucf" xil_pn:type="FILE_UCF">
<association xil_pn:name="Implementation" xil_pn:seqID="0"/>
</file>
<file xil_pn:name="main.v" xil_pn:type="FILE_VERILOG">
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="4"/>
<association xil_pn:name="Implementation" xil_pn:seqID="3"/>
<association xil_pn:name="Implementation" xil_pn:seqID="4"/>
</file>
<file xil_pn:name="logic_analyzer_data_storage.v" xil_pn:type="FILE_VERILOG">
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="56"/>
<association xil_pn:name="Implementation" xil_pn:seqID="1"/>
</file>
</files>
@ -93,6 +97,7 @@
<property xil_pn:name="Enable Cyclic Redundancy Checking (CRC) spartan6" xil_pn:value="true" xil_pn:valueState="default"/>
<property xil_pn:name="Enable Debugging of Serial Mode BitStream" xil_pn:value="false" xil_pn:valueState="default"/>
<property xil_pn:name="Enable External Master Clock spartan6" xil_pn:value="false" xil_pn:valueState="default"/>
<property xil_pn:name="Enable Hardware Co-Simulation" xil_pn:value="false" xil_pn:valueState="default"/>
<property xil_pn:name="Enable Internal Done Pipe" xil_pn:value="true" xil_pn:valueState="non-default"/>
<property xil_pn:name="Enable Message Filtering" xil_pn:value="false" xil_pn:valueState="default"/>
<property xil_pn:name="Enable Multi-Pin Wake-Up Suspend Mode spartan6" xil_pn:value="false" xil_pn:valueState="default"/>
@ -326,7 +331,7 @@
<property xil_pn:name="Use Synchronous Reset" xil_pn:value="Auto" xil_pn:valueState="default"/>
<property xil_pn:name="Use Synchronous Set" xil_pn:value="Auto" xil_pn:valueState="default"/>
<property xil_pn:name="Use Synthesis Constraints File" xil_pn:value="true" xil_pn:valueState="default"/>
<property xil_pn:name="User Browsed Strategy Files" xil_pn:value="" xil_pn:valueState="default"/>
<property xil_pn:name="User Browsed Strategy Files" xil_pn:value="/applications/xilinx/14.7/ISE_DS/ISE/data/default.xds" xil_pn:valueState="non-default"/>
<property xil_pn:name="UserID Code (8 Digit Hexadecimal)" xil_pn:value="0xFFFFFFFF" xil_pn:valueState="default"/>
<property xil_pn:name="VCCAUX Voltage Level spartan6" xil_pn:value="2.5V" xil_pn:valueState="default"/>
<property xil_pn:name="VHDL Source Analysis Standard" xil_pn:value="VHDL-93" xil_pn:valueState="default"/>

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