From: Marius Gavrilescu Date: Wed, 7 Feb 2018 14:19:24 +0000 (+0000) Subject: LISP processor works now X-Git-Url: http://git.ieval.ro/?a=commitdiff_plain;h=2ed306f8640ffdad28bea2e6487e617e81cdde2c;p=yule.git LISP processor works now --- diff --git a/Makefile b/Makefile index 9c85adf..3ce34ed 100644 --- a/Makefile +++ b/Makefile @@ -5,19 +5,19 @@ DEVICE = hx1k all: $(PROJ).rpt $(PROJ).bin %.blif: %.v - yosys -p 'synth_ice40 -top top -blif $@' $< + tools/yosys/yosys -p 'synth_ice40 -top top -blif $@' $< %.asc: $(PIN_DEF) %.blif - arachne-pnr -d $(subst hx,,$(subst lp,,$(DEVICE))) -o $@ -p $^ -P tq144 + tools/arachne-pnr/bin/arachne-pnr -d $(subst hx,,$(subst lp,,$(DEVICE))) -o $@ -p $^ -P tq144 %.bin: %.asc - icepack $< $@ + tools/icestorm/icepack/icepack $< $@ %.rpt: %.asc - icetime -d $(DEVICE) -mtr $@ $< + tools/icestorm/icetime/icetime -d $(DEVICE) -mtr $@ $< prog: $(PROJ).bin - iceprog $< + tools/icestorm/iceprog/iceprog $< clean: rm -f $(PROJ).blif $(PROJ).asc $(PROJ).bin diff --git a/eval.v b/eval.v new file mode 100644 index 0000000..2509113 --- /dev/null +++ b/eval.v @@ -0,0 +1,133 @@ +module EVAL(input clk, input mclk, input [7:0] Ein, output [7:0] Eout, output [3:0] gcop, output [5:0] ostate, input conn_ea, input conn_et); + reg [21:0] rom_output; + reg [5:0] eostate = 6'o0; + reg [5:0] enstate; + reg [7:0] Ein_latched; + + always @(posedge clk) begin + Ein_latched <= Ein; + end + + wire et_lit = rom_output[21]; + wire ea_lit = rom_output[20]; + wire eaz_etz_eqv_disp = rom_output[19]; + wire et_disp = rom_output[18]; + wire rdC = rom_output[17]; + wire rdL = rom_output[16]; + wire rdN = rom_output[15]; + wire rdXp = rom_output[14]; + wire rdX = rom_output[13]; + wire rdV = rom_output[12]; + wire ldC = rom_output[11]; + wire ldL = rom_output[10]; + wire ldN = rom_output[9]; + wire ldX = rom_output[8]; + wire ldV = rom_output[7]; + wire [3:0] gcop = rom_output[6:3]; + wire [2:0] lit = rom_output[2:0]; + + always @* begin + case(eostate) + 6'o00: begin rom_output <= 22'o14004002; enstate <= 6'o01; end + 6'o01: begin rom_output <= 22'o14001000; enstate <= 6'o33; end + 6'o02: begin rom_output <= 22'o02040200; enstate <= 6'o23; end + 6'o03: begin rom_output <= 22'o00400120; enstate <= 6'o20; end + 6'o04: begin rom_output <= 22'o00010110; enstate <= 6'o64; end + 6'o05: begin rom_output <= 22'o00001170; enstate <= 6'o22; end + 6'o06: begin rom_output <= 22'o14000013; enstate <= 6'o71; end + 6'o07: begin rom_output <= 22'o00000000; enstate <= 6'o07; end + 6'o10: begin rom_output <= 22'o00020200; enstate <= 6'o45; end + 6'o11: begin rom_output <= 22'o00020200; enstate <= 6'o45; end + 6'o12: begin rom_output <= 22'o00100140; enstate <= 6'o02; end + 6'o13: begin rom_output <= 22'o00020200; enstate <= 6'o45; end + 6'o14: begin rom_output <= 22'o00020010; enstate <= 6'o53; end + 6'o15: begin rom_output <= 22'o00020010; enstate <= 6'o03; end + 6'o16: begin rom_output <= 22'o14002000; enstate <= 6'o40; end + 6'o17: begin rom_output <= 22'o00020010; enstate <= 6'o30; end + 6'o20: begin rom_output <= 22'o00100110; enstate <= 6'o21; end + 6'o21: begin rom_output <= 22'o10004161; enstate <= 6'o61; end + 6'o22: begin rom_output <= 22'o00004030; enstate <= 6'o24; end + 6'o23: begin rom_output <= 22'o00010500; enstate <= 6'o02; end + 6'o24: begin rom_output <= 22'o02010070; enstate <= 6'o33; end + 6'o25: begin rom_output <= 22'o00000040; enstate <= 6'o26; end + 6'o26: begin rom_output <= 22'o00010120; enstate <= 6'o30; end + 6'o27: begin rom_output <= 22'o00000240; enstate <= 6'o45; end + 6'o30: begin rom_output <= 22'o00000350; enstate <= 6'o45; end + 6'o31: begin rom_output <= 22'o00001150; enstate <= 6'o32; end + 6'o32: begin rom_output <= 22'o02200010; enstate <= 6'o63; end + 6'o33: begin rom_output <= 22'o01000440; enstate <= 6'o10; end + 6'o34: begin rom_output <= 22'o00201000; enstate <= 6'o35; end + 6'o35: begin rom_output <= 22'o00010020; enstate <= 6'o62; end + 6'o36: begin rom_output <= 22'o00400120; enstate <= 6'o54; end + 6'o37: begin rom_output <= 22'o01000430; enstate <= 6'o10; end + 6'o40: begin rom_output <= 22'o00020010; enstate <= 6'o36; end + 6'o41: begin rom_output <= 22'o00010020; enstate <= 6'o30; end + 6'o42: begin rom_output <= 22'o00010010; enstate <= 6'o30; end + 6'o43: begin rom_output <= 22'o00200010; enstate <= 6'o25; end + 6'o44: begin rom_output <= 22'o02010000; enstate <= 6'o55; end + 6'o45: begin rom_output <= 22'o01400020; enstate <= 6'o04; end + 6'o46: begin rom_output <= 22'o00200200; enstate <= 6'o45; end + 6'o47: begin rom_output <= 22'o00010010; enstate <= 6'o31; end + 6'o50: begin rom_output <= 22'o00000060; enstate <= 6'o51; end + 6'o51: begin rom_output <= 22'o00004030; enstate <= 6'o52; end + 6'o52: begin rom_output <= 22'o01000450; enstate <= 6'o40; end + 6'o53: begin rom_output <= 22'o00100120; enstate <= 6'o70; end + 6'o54: begin rom_output <= 22'o00100110; enstate <= 6'o56; end + 6'o55: begin rom_output <= 22'o14000201; enstate <= 6'o45; end + 6'o56: begin rom_output <= 22'o00200110; enstate <= 6'o60; end + 6'o57: begin rom_output <= 22'o14000200; enstate <= 6'o45; end + 6'o60: begin rom_output <= 22'o10004160; enstate <= 6'o61; end + 6'o61: begin rom_output <= 22'o00020020; enstate <= 6'o62; end + 6'o62: begin rom_output <= 22'o01000550; enstate <= 6'o10; end + 6'o63: begin rom_output <= 22'o02000030; enstate <= 6'o63; end + 6'o64: begin rom_output <= 22'o00002150; enstate <= 6'o65; end + 6'o65: begin rom_output <= 22'o00400010; enstate <= 6'o66; end + 6'o66: begin rom_output <= 22'o00001040; enstate <= 6'o50; end + 6'o67: begin rom_output <= 22'o00100130; enstate <= 6'o34; end + 6'o70: begin rom_output <= 22'o10000363; enstate <= 6'o45; end + 6'o71: begin rom_output <= 22'o00010130; enstate <= 6'o07; end + default: begin rom_output <= 22'o00000000; enstate <= 6'o07; end + endcase + end // always @ * + + always @ (posedge clk) begin + eostate <= + et_disp ? (enstate | E[7:5]) : + eaz_etz_eqv_disp ? (enstate | {ea_zero, et_zero, 1'b0}) : + enstate; + end + + assign ostate = eostate; + + reg [7:0] V; + reg [7:0] X; + reg [7:0] N; + reg [7:0] L; + reg [7:0] C; + + wire [7:0] E; + + wire [7:0] EfromV = rdV ? V : 0; + wire [7:0] EfromX = rdX ? X : 0; + wire [7:0] EfromXp = rdXp ? {X[7:5], X[4:0] + 1} : 0; + wire [7:0] EfromN = rdN ? N : 0; + wire [7:0] EfromL = rdL ? L : 0; + wire [7:0] EfromC = rdC ? C : 0; + wire [4:0] EAfromEin = conn_ea ? Ein[4:0] : 0; + wire [3:0] ETfromEin = conn_et ? Ein[7:5] : 0; + wire [7:0] EfromEin = {ETfromEin, EAfromEin}; + wire [4:0] EAfromLIT = ea_lit ? {1'b0, lit, 1'b0} : 0; + wire [3:0] ETfromLIT = et_lit ? lit : 0; + wire [7:0] EfromLIT = {ETfromLIT, EAfromLIT}; + + assign E = EfromV | EfromX | EfromXp | EfromN | EfromL | EfromC | EfromLIT | EfromEin; + assign Eout = EfromV | EfromX | EfromXp | EfromN | EfromL | EfromC | EfromLIT; + + always @ (posedge clk) begin + if (ldV) V <= E; + if (ldX) X <= E; + if (ldN) N <= E; + if (ldL) L <= E; + if (ldC) C <= E; + end +endmodule // EVAL diff --git a/flash.v b/flash.v index 7168053..59a472e 100644 --- a/flash.v +++ b/flash.v @@ -1,4 +1,4 @@ -`include "processor_4.v" +`include "lisp_processor.v" module top (input CLK, output [4:0] LED, output UART_TX, input UART_RX); // Prescaler on the clock @@ -9,7 +9,7 @@ module top (input CLK, output [4:0] LED, output UART_TX, input UART_RX); end // Connect up the processor - PROCESSOR cpu(.clk(counter[10]), + PROCESSOR cpu(.clk(counter[7]), .led(LED), .uart_tx(UART_TX), .uart_rx(UART_RX)); diff --git a/gc.v b/gc.v index 64eb8fa..682f51a 100644 --- a/gc.v +++ b/gc.v @@ -1,8 +1,10 @@ -module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0] gcop, output [5:0] ostate, output step_eval); - reg [5:0] gostate = 6'o2; - reg [5:0] gnstate; +`include "gcram.v" + +module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0] gcop, output [5:0] ostate, output conn_et, output conn_ea, output step_eval, output [7:0] result); reg [15:0] rom_output; - reg [7:0] Ein_latched; + reg [5:0] gostate = 6'o0; + reg [5:0] gnstate; + reg [7:0] Ein_latched = 6'h44; // initial value of E always @(posedge clk) begin Ein_latched <= Ein; @@ -21,8 +23,8 @@ module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0 wire ldQ = rom_output[5]; wire ldP = rom_output[4]; wire conn_i = rom_output[3]; - wire conn_et = rom_output[2]; - wire conn_ea = rom_output[1]; + assign conn_et = rom_output[2]; + assign conn_ea = rom_output[1]; assign step_eval = rom_output[0]; wire ga_zero = ~|G[7:5]; @@ -39,7 +41,7 @@ module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0 6'o07: begin rom_output <= 16'o002020; gnstate <= 6'o10; end 6'o10: begin rom_output <= 16'o001200; gnstate <= 6'o11; end 6'o11: begin rom_output <= 16'o004020; gnstate <= 6'o12; end - 6'o12: begin rom_output <= 16'o002100; gnstate <= 6'o13; end + 6'o12: begin rom_output <= 16'o002100 | (1 << 12); gnstate <= 6'o13; end 6'o13: begin rom_output <= 16'o000057; gnstate <= 6'o02; end 6'o14: begin rom_output <= 16'o004020; gnstate <= 6'o04; end 6'o15: begin rom_output <= 16'o000246; gnstate <= 6'o16; end @@ -79,18 +81,18 @@ module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0 6'o57: begin rom_output <= 16'o004007; gnstate <= 6'o02; end default: begin rom_output <= 16'o040000; gnstate <= 6'o20; end endcase; // case (gostate) - end // always @ (posedge mclk) + end // always @ * always @ (posedge clk) begin gostate <= - /* ga_zero_disp ? (gnstate | ga_zero) : */ + ga_zero_disp ? (gnstate | ga_zero) : gcop_disp ? (gnstate | gcop) : gnstate; end // always @ (posedge clk) assign ostate = gostate; - reg [4:0] P = 5'b0; // free storage pointer begins at 0 + reg [4:0] P; reg [7:0] Q; reg [7:0] R; reg [7:0] S; @@ -100,6 +102,7 @@ module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0 wire [7:0] I; wire [7:0] G; + wire [7:0] Gout; /* assign G = rdR ? R : 8'bzzzzzzzz; @@ -124,24 +127,12 @@ module GC (input clk, input mclk, input [7:0] Ein, output [7:0] Eout, input [3:0 wire [7:0] GfromE = {GTfromE, GAfromE}; assign G = GfromR | GfromQ | GfromP | GfromP_plus | GfromI | GfromE; + assign Gout = GfromR | GfromQ | GfromP | GfromP_plus | GfromI; + + assign Eout[4:0] = conn_ea ? Gout[4:0] : 0; + assign Eout[7:5] = conn_et ? Gout[7:5] : 0; - assign Eout[4:0] = conn_ea ? G[4:0] : 0; - assign Eout[7:5] = conn_et ? G[7:5] : 0; - - generic_dpram #(.aw(5), .dw(8)) RAM - ( .rclk(mclk), - .wclk(mclk), - .rrst(1'b0), - .wrst(1'b0), - .rce(1'b1), - .wce(1'b1), - - .oe(1'b1), - .we(write), - .raddr(A), - .waddr(A), - .do(I), - .di(S)); + GCRAM gcram (.clk(mclk), .we(write), .addr(A), .do(I), .di(S), .result(result)); always @ (posedge clk) begin if (ldS) S = G; diff --git a/gcram.v b/gcram.v new file mode 100644 index 0000000..bb03b36 --- /dev/null +++ b/gcram.v @@ -0,0 +1,27 @@ +module GCRAM +(input clk, input we, input[5:0] addr, input[7:0] di, output reg [7:0] do, output reg [7:0] result); + reg [7:0] mem [(1<<5)-1:0]; + + always @ (posedge clk) + do <= #1 mem[addr]; + + always @ (posedge clk) + if (we) + mem[addr] <= #1 di; + + always @ (posedge clk) + result <= mem[6]; + + initial begin + mem[0] <= 0; + mem[1] <= 0; + mem[2] <= 8'b00100000; + mem[3] <= 8'b00100000; + mem[4] <= 8'd8; + mem[5] <= 8'b11101000; /* QUOTE 8 */ + mem[6] <= 0; + mem[7] <= 8'd49; + mem[8] <= 8'd49; + mem[9] <= 8'd49; + end +endmodule diff --git a/lisp_processor.v b/lisp_processor.v new file mode 100644 index 0000000..fbcca7e --- /dev/null +++ b/lisp_processor.v @@ -0,0 +1,92 @@ +`include "asciihex.v" +`include "generic_fifo_sc_a.v" +`include "gc.v" +`include "eval.v" +`include "ram.v" +`include "rom.v" +`include "prescaler.v" +`include "single_trigger.v" +`include "uart.v" + +`define GCOP_NOP 4'd0 +`define GCOP_CDR 4'd1 +`define GCOP_CAR 4'd2 +`define GCOP_CDRQ 4'd3 +`define GCOP_CARQ 4'd4 +`define GCOP_CARR 4'd5 +`define GCOP_CDRRX 4'd6 +`define GCOP_CARRX 4'd7 +`define GCOP_CDRQX 4'd8 +`define GCOP_CONS 4'd9 +`define GCOP_XCONS 4'd10 +`define GCOP_RPLACDR 4'd11 +`define GCOP_LDQ 4'd12 +`define GCOP_RDQ 4'd13 +`define GCOP_RDQA 4'd14 +`define GCOP_RDQCDRRX 4'd15 + +module PROCESSOR (input clk, output [4:0] led, output uart_tx, input uart_rx); + wire [7:0] result; + + reg [1:0] counter = 0; + + reg gc_clock = counter[1]; + wire eval_clock = !counter[1] & step_eval; + + always @ (posedge clk) + counter <= counter + 1; + + wire [7:0] E1; + wire [7:0] E2; + wire [3:0] gcop; + wire [5:0] gostate; + wire [5:0] eostate; + wire conn_ea; + wire conn_et; + + wire step_eval; + + GC gc (.clk(gc_clock), .mclk(clk), .Ein(E1), .Eout(E2), .gcop(gcop), .ostate(gostate), .step_eval(step_eval), .conn_ea(conn_ea), .conn_et(conn_et), .result(result)); + + EVAL eval (.clk(eval_clock), .mclk(clk), .Ein(E2), .Eout(E1), .gcop(gcop), .ostate(eostate), .conn_ea(conn_ea), .conn_et(conn_et)); + + // UART outputs + wire uart_rx_signal; + wire [7:0] uart_rx_byte; + wire uart_is_receiving; + wire uart_is_transmitting; + wire uart_rx_error; + + // Input logic + wire [3:0] fifo_in; + wire [3:0] fifo_out; + wire fifo_full; + wire fifo_empty; + wire fifo_re = 0;//eval_clock & inst == `INST_READ & !fifo_empty; + wire fifo_we = uart_rx_signal & !fifo_full; + + ascii_to_hex a2h (.ascii({1'b0, uart_rx_byte[6:0]}), .hex(fifo_in)); + + generic_fifo_sc_a #(.dw(4), .aw(4)) fifo + (.clk(clk), + .rst(1'b1), + .re(fifo_re), + .we(fifo_we), + .din(fifo_in), + .dout(fifo_out), + .full(fifo_full), + .empty(fifo_empty)); + + // UART logic + reg uart_tx_signal = 1; + wire [7:0] uart_tx_byte = result; + + // 300 baud uart + uart #(.CLOCK_DIVIDE(39)) uart (.clk(clk), .rx(uart_rx), .tx(uart_tx), .transmit(uart_tx_signal), .tx_byte(uart_tx_byte), .received(uart_rx_signal), .rx_byte(uart_rx_byte), .is_receiving(uart_is_receiving), .is_transmitting(uart_is_transmitting), .recv_error (uart_rx_error)); + + // Assign the outputs + assign led[0] = eval_clock; + assign led[1] = uart_is_transmitting; + assign led[2] = uart_is_receiving; + assign led[3] = recv_error; +endmodule