-module EVAL(input clk, input mclk, input [15:0] Ein, output [15:0] Eout, output [3:0] gcop, output [5:0] ostate, input conn_ea, input conn_et);
+module EVAL(input clk, input clk_enable, input [15:0] Ein, output [15:0] 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 [15:0] Ein_latched;
always @(posedge clk) begin
- Ein_latched <= Ein;
+ if(clk_enable) begin
+ Ein_latched <= Ein;
+ end
end
wire et_lit = rom_output[21];
end // always @ *
always @ (posedge clk) begin
- eostate <=
- et_disp ? (enstate | E[15:13]) :
- eaz_etz_eqv_disp ? (enstate | {ea_zero, et_zero, 1'b0}) :
- enstate;
+ if (clk_enable) begin
+ eostate <=
+ et_disp ? (enstate | E[15:13]) :
+ eaz_etz_eqv_disp ? (enstate | {ea_zero, et_zero, 1'b0}) :
+ enstate;
+ end
end
assign ostate = eostate;
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;
+ if (clk_enable) begin
+ if (ldV) V <= E;
+ if (ldX) X <= E;
+ if (ldN) N <= E;
+ if (ldL) L <= E;
+ if (ldC) C <= E;
+ end
end
endmodule // EVAL
`include "gcram.v"
-module GC (input clk, input mclk, input [15:0] Ein, output [15:0] Eout, input [3:0] gcop, output [5:0] ostate, output conn_et, output conn_ea, output step_eval, output ram_we, output [12:0] ram_addr, output [15:0] ram_di, input [15:0] ram_do);
+module GC (input clk, input clk_enable, input [15:0] Ein, output [15:0] Eout, input [3:0] gcop, output [5:0] ostate, output conn_et, output conn_ea, output step_eval, output ram_we, output [12:0] ram_addr, output [15:0] ram_di, input [15:0] ram_do);
reg [15:0] rom_output;
reg [5:0] gostate = 6'o0;
reg [5:0] gnstate;
reg [15:0] Ein_latched = 16'b0100000000000100; // initial value of E
always @(posedge clk) begin
- Ein_latched <= Ein;
+ if(clk_enable) begin
+ Ein_latched <= Ein;
+ end
end
wire ga_zero_disp = rom_output[15];
end // always @ *
always @ (posedge clk) begin
- gostate <=
- ga_zero_disp ? (gnstate | ga_zero) :
- gcop_disp ? (gnstate | gcop) :
- gnstate;
+ if(clk_enable) begin
+ gostate <=
+ ga_zero_disp ? (gnstate | ga_zero) :
+ gcop_disp ? (gnstate | gcop) :
+ gnstate;
+ end
end // always @ (posedge clk)
assign ostate = gostate;
assign Eout[15:13] = conn_et ? Gout[15:13] : 0;
always @ (posedge clk) begin
- if (ldS) S = G;
- if (ldP) P <= G[12:0];
- if (ldR) R <= G;
- if (ldQ) Q <= G;
- if (adr) A <= S[12:0];
+ if(clk_enable) begin
+ if (ldS) S = G;
+ if (ldP) P <= G[12:0];
+ if (ldR) R <= G;
+ if (ldQ) Q <= G;
+ if (adr) A <= S[12:0];
+ end
end
endmodule // GC
reg [1:0] counter = 0;
- wire gc_clock = counter[1] & !initial_reset;
- wire eval_clock = !counter[1] & step_eval & !initial_reset;
+ wire gc_clock_enable = counter[0] & counter[1] & !initial_reset;
+ wire eval_clock_enable = counter[0] & !counter[1] & step_eval & !initial_reset;
always @ (posedge clk)
counter <= counter + 1;
GCRAM gcram (.clk(clk), .we(ram_we), .addr(ram_addr), .di(ram_di), .do(ram_do), .result(result));
- 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), .ram_we(ram_we), .ram_addr(ram_addr), .ram_di(ram_di), .ram_do(ram_do));
+ GC gc (.clk(clk), .clk_enable(gc_clock_enable), .Ein(E1), .Eout(E2), .gcop(gcop), .ostate(gostate), .step_eval(step_eval), .conn_ea(conn_ea), .conn_et(conn_et), .ram_we(ram_we), .ram_addr(ram_addr), .ram_di(ram_di), .ram_do(ram_do));
- EVAL eval (.clk(eval_clock), .mclk(clk), .Ein(E2), .Eout(E1), .gcop(gcop), .ostate(eostate), .conn_ea(conn_ea), .conn_et(conn_et));
+ EVAL eval (.clk(clk), .clk_enable(eval_clock_enable), .Ein(E2), .Eout(E1), .gcop(gcop), .ostate(eostate), .conn_ea(conn_ea), .conn_et(conn_et));
// UART outputs
wire uart_rx_signal;
projects / yule.git / commitdiff