From 9e9689d7b00ecdcc1c651f5e369e00a53d62df3c Mon Sep 17 00:00:00 2001 From: "Pavel V. Shatov (Meister)" Date: Tue, 1 Oct 2019 15:05:11 +0300 Subject: Further work on the Montgomery modular multiplier. Can now to the "triangular" part of multiplication, i.e. compute the "magic" reduction coefficient Q = LSB(AB) * N_COEFF. --- bench/tb_square.v | 391 +++++++++++++++++++++++++++++++++++++++++++----------- 1 file changed, 314 insertions(+), 77 deletions(-) (limited to 'bench') diff --git a/bench/tb_square.v b/bench/tb_square.v index 61e5d8a..23831db 100644 --- a/bench/tb_square.v +++ b/bench/tb_square.v @@ -39,6 +39,8 @@ module tb_square; reg [17:0] T1[0:31]; reg [17:0] T2[0:31]; reg [17:0] AB[0:63]; + reg [17:0] N_COEFF[0:32]; + reg [17:0] Q[0:32]; // @@ -81,6 +83,26 @@ module tb_square; AB[56] = 18'h0e1c0; AB[57] = 18'h00989; AB[58] = 18'h01201; AB[59] = 18'h0e194; AB[60] = 18'h07f93; AB[61] = 18'h0e739; AB[62] = 18'h07cf6; AB[63] = 18'h019df; // + N_COEFF[ 0] = 18'h05a97; N_COEFF[ 1] = 18'h0ac69; N_COEFF[ 2] = 18'h0d51e; N_COEFF[ 3] = 18'h07326; + N_COEFF[ 4] = 18'h01053; N_COEFF[ 5] = 18'h0f68a; N_COEFF[ 6] = 18'h09c70; N_COEFF[ 7] = 18'h064f7; + N_COEFF[ 8] = 18'h01041; N_COEFF[ 9] = 18'h0c2bf; N_COEFF[10] = 18'h0f01f; N_COEFF[11] = 18'h01842; + N_COEFF[12] = 18'h0e69a; N_COEFF[13] = 18'h037ea; N_COEFF[14] = 18'h0b4a0; N_COEFF[15] = 18'h0c1ab; + N_COEFF[16] = 18'h0bd5b; N_COEFF[17] = 18'h09e5e; N_COEFF[18] = 18'h039bd; N_COEFF[19] = 18'h06430; + N_COEFF[20] = 18'h0b460; N_COEFF[21] = 18'h08bd4; N_COEFF[22] = 18'h09fcd; N_COEFF[23] = 18'h05391; + N_COEFF[24] = 18'h0fa45; N_COEFF[25] = 18'h08892; N_COEFF[26] = 18'h0732c; N_COEFF[27] = 18'h0baf6; + N_COEFF[28] = 18'h067a9; N_COEFF[29] = 18'h0b184; N_COEFF[30] = 18'h02089; N_COEFF[31] = 18'h0297b; + N_COEFF[32] = 18'h01810; + // + Q[ 0] = 18'h0ac02; Q[ 1] = 18'h0a026; Q[ 2] = 18'h06825; Q[ 3] = 18'h08f06; + Q[ 4] = 18'h03783; Q[ 5] = 18'h04cb5; Q[ 6] = 18'h0e8ea; Q[ 7] = 18'h083d2; + Q[ 8] = 18'h0fec9; Q[ 9] = 18'h066d9; Q[10] = 18'h0edad; Q[11] = 18'h06c12; + Q[12] = 18'h0a5fb; Q[13] = 18'h07295; Q[14] = 18'h06a0c; Q[15] = 18'h081a5; + Q[16] = 18'h03493; Q[17] = 18'h0a393; Q[18] = 18'h03da6; Q[19] = 18'h0beb1; + Q[20] = 18'h0d138; Q[21] = 18'h02815; Q[22] = 18'h0f191; Q[23] = 18'h03617; + Q[24] = 18'h08d4f; Q[25] = 18'h0f641; Q[26] = 18'h00e82; Q[27] = 18'h01774; + Q[28] = 18'h0bf39; Q[29] = 18'h0929d; Q[30] = 18'h05273; Q[31] = 18'h0c30a; + Q[32] = 18'h0eef3; + // end @@ -102,9 +124,10 @@ module tb_square; reg mac_fat_bram_xy_ena = 1'b0; reg mac_fat_bram_xy_reg_ena = 1'b0; reg [ 2:0] mac_fat_bram_xy_bank; - reg [ 7:0] mac_fat_bram_xy_addr[0:3]; - wire [17:0] mac_fat_bram_x_dout[0:3]; - wire [17:0] mac_fat_bram_y_dout[0:3]; + reg [ 2:0] mac_fat_bram_xy_bank_aux; + reg [ 7:0] mac_fat_bram_xy_addr[0:4]; + wire [17:0] mac_fat_bram_x_dout[0:4]; + wire [17:0] mac_fat_bram_y_dout[0:4]; reg tb_slim_bram_xy_ena = 1'b0; reg [ 1:0] tb_slim_bram_xy_bank; @@ -124,14 +147,14 @@ module tb_square; // mac_slim_bram_xy_addr_dly <= mac_slim_bram_xy_addr; - reg mac_slim_bram_xy_reg_ena_dly = 1'b0; + reg mac_slim_bram_xy_reg_ena_dly = 1'b0; always @(posedge clk) mac_slim_bram_xy_reg_ena_dly <= mac_slim_bram_xy_reg_ena; genvar z; - generate for (z=0; z<(NUM_MULTS/2); z=z+1) + generate for (z=0; z<((NUM_MULTS/2)+1); z=z+1) begin : gen_fat_bram // ip_bram_36k fat_bram_x @@ -145,7 +168,8 @@ module tb_square; .clkb (clk), .enb (mac_fat_bram_xy_ena), .regceb (mac_fat_bram_xy_reg_ena), - .addrb ({mac_fat_bram_xy_bank, mac_fat_bram_xy_addr[z]}), + .addrb ({(z < (NUM_MULTS/2) ? + mac_fat_bram_xy_bank : mac_fat_bram_xy_bank_aux), mac_fat_bram_xy_addr[z]}), .doutb (mac_fat_bram_x_dout[z]) ); // @@ -160,7 +184,8 @@ module tb_square; .clkb (clk), .enb (mac_fat_bram_xy_ena), .regceb (mac_fat_bram_xy_reg_ena), - .addrb ({mac_fat_bram_xy_bank, mac_fat_bram_xy_addr[z]}), + .addrb ({z < (NUM_MULTS/2) ? + mac_fat_bram_xy_bank : mac_fat_bram_xy_bank_aux, mac_fat_bram_xy_addr[z]}), .doutb (mac_fat_bram_y_dout[z]) ); // @@ -232,6 +257,23 @@ module tb_square; wait_clock_tick; end + for (i=0; i<32; i=i+1) begin + tb_slim_bram_xy_bank = BANK_SLIM_N_COEFF; + tb_slim_bram_xy_addr = i[7:0]; + tb_slim_bram_x_din = N_COEFF[i]; + tb_slim_bram_y_din = N_COEFF[i]; + + wait_clock_tick; + end + for (i=32; i<33; i=i+1) begin + tb_slim_bram_xy_bank = BANK_SLIM_N_COEFF_EXT; + tb_slim_bram_xy_addr = 0; + tb_slim_bram_x_din = N_COEFF[i]; + tb_slim_bram_y_din = N_COEFF[i]; + + wait_clock_tick; + end + tb_fat_bram_xy_ena = 1'b0; tb_slim_bram_xy_ena = 1'b0; @@ -256,6 +298,7 @@ module tb_square; wait_clock_tick; verify_ab; + verify_q; end @@ -270,11 +313,11 @@ module tb_square; reg dsp_x_ce_p; reg dsp_x_ce_mode; - reg [8 -1:0] dsp_x_mode_z = {8{1'b1}}; + reg [9 -1:0] dsp_x_mode_z = {9{1'b1}}; - wire [4*18-1:0] dsp_x_a; + wire [5*18-1:0] dsp_x_a; reg [1*17-1:0] dsp_x_b; - wire [8*47-1:0] dsp_x_p; + wire [9*47-1:0] dsp_x_p; reg dsp_y_ce_a; reg dsp_y_ce_b; @@ -283,13 +326,13 @@ module tb_square; reg dsp_y_ce_p; reg dsp_y_ce_mode; - reg [8 -1:0] dsp_y_mode_z = {8{1'b1}}; + reg [9 -1:0] dsp_y_mode_z = {9{1'b1}}; - wire [4*18-1:0] dsp_y_a; + wire [5*18-1:0] dsp_y_a; reg [1*17-1:0] dsp_y_b; - wire [8*47-1:0] dsp_y_p; + wire [9*47-1:0] dsp_y_p; - generate for (z=0; z<(NUM_MULTS/2); z=z+1) + generate for (z=0; z<((NUM_MULTS/2)+1); z=z+1) begin : gen_dsp_xy_a_split assign dsp_x_a[18*z+:18] = mac_fat_bram_x_dout[z]; assign dsp_y_a[18*z+:18] = mac_fat_bram_y_dout[z]; @@ -301,10 +344,10 @@ module tb_square; {dsp_y_ce_b_dly, dsp_x_ce_b_dly} <= {dsp_y_ce_b, dsp_x_ce_b}; - reg [8 -1:0] dsp_xy_mode_z_adv1 = {8{1'b1}}; - reg [8 -1:0] dsp_xy_mode_z_adv2 = {8{1'b1}}; - reg [8 -1:0] dsp_xy_mode_z_adv3 = {8{1'b1}}; - reg [8 -1:0] dsp_xy_mode_z_adv4 = {8{1'b1}}; + reg [9 -1:0] dsp_xy_mode_z_adv1 = {9{1'b1}}; + reg [9 -1:0] dsp_xy_mode_z_adv2 = {9{1'b1}}; + reg [9 -1:0] dsp_xy_mode_z_adv3 = {9{1'b1}}; + reg [9 -1:0] dsp_xy_mode_z_adv4 = {9{1'b1}}; dsp_array dsp_x ( @@ -355,16 +398,47 @@ module tb_square; localparam [7:0] index_last = 8'd31; + localparam [7:0] index_last_minus1 = index_last - 1'b1; + + + // + // Column + // + reg [4:0] col_index; // current column index + reg [4:0] col_index_prev; // delayed column index value + reg [4:0] col_index_last; // index of the very last column + reg [4:0] col_index_next1; // precomputed next column index + //reg [4:0] col_index_next2; // precomputed next column index after next column index + reg col_is_last; // flag set during the very last column + + always @(posedge clk) + // + col_index_prev <= col_index; wire mult_square_addr_almost_done_comb; reg mult_square_addr_almost_done_flop; + + //wire mult_square_addr_surely_done_comb; + reg mult_square_addr_surely_done_flop; + + reg mult_triangle_addr_almost_done_comb; + reg mult_triangle_addr_almost_done_flop; + + //wire mult_triangle_addr_surely_done_comb; + reg mult_triangle_addr_surely_done_flop; + reg mult_triangle_addr_tardy_done_flop; - wire mult_square_addr_surely_done_comb; - reg mult_square_addr_surely_done_flop; + assign mult_square_addr_almost_done_comb = mac_slim_bram_xy_addr == index_last_minus1; + + always @* + // + //if (!col_is_last) + mult_triangle_addr_almost_done_comb = (mac_slim_bram_xy_addr[2:0] == index_last_minus1[2:0]) && (mac_slim_bram_xy_addr[7:3] == col_index); + //else + //mult_triangle_addr_almost_done_comb = (mac_slim_bram_xy_addr[2:0] == index_last[2:0]) && (mac_slim_bram_xy_addr[7:3] == col_index); + - assign mult_square_addr_almost_done_comb = mac_slim_bram_xy_addr == (index_last - 8'd1); - assign mult_square_addr_surely_done_comb = mac_slim_bram_xy_addr == index_last; always @(posedge clk) // @@ -372,60 +446,130 @@ module tb_square; FSM_STATE_MULT_SQUARE_COL_0_BUSY, FSM_STATE_MULT_SQUARE_COL_N_BUSY: - {mult_square_addr_surely_done_flop, mult_square_addr_almost_done_flop} <= - {mult_square_addr_surely_done_comb, mult_square_addr_almost_done_comb}; - + mult_square_addr_almost_done_flop <= mult_square_addr_almost_done_comb; + //{mult_square_addr_surely_done_flop, mult_square_addr_almost_done_flop} <= + //{mult_square_addr_surely_done_comb, mult_square_addr_almost_done_comb}; default: - {mult_square_addr_surely_done_flop, mult_square_addr_almost_done_flop} <= 2'b00; + mult_square_addr_almost_done_flop <= 1'b0; + //{mult_square_addr_surely_done_flop, mult_square_addr_almost_done_flop} <= 2'b00; endcase - - // - // Column - // - reg [4:0] col_index; - reg [4:0] col_index_prev; - reg [4:0] col_index_last; + always @(posedge clk) + // + mult_square_addr_surely_done_flop <= mult_square_addr_almost_done_flop; always @(posedge clk) // - col_index_prev <= col_index; + case (fsm_state) + + FSM_STATE_MULT_TRIANGLE_COL_0_BUSY, + FSM_STATE_MULT_TRIANGLE_COL_N_BUSY: + mult_triangle_addr_almost_done_flop <= mult_triangle_addr_almost_done_comb; + //{mult_triangle_addr_surely_done_flop, mult_triangle_addr_almost_done_flop} <= + //{mult_triangle_addr_surely_done_comb, mult_triangle_addr_almost_done_comb}; + + default: + mult_triangle_addr_almost_done_flop <= 1'b0; + //{mult_triangle_addr_surely_done_flop, mult_triangle_addr_almost_done_flop} <= 2'b00; + + endcase + + always @(posedge clk) begin + // + mult_triangle_addr_surely_done_flop <= mult_triangle_addr_almost_done_flop; + mult_triangle_addr_tardy_done_flop <= mult_triangle_addr_surely_done_flop; + // + end + + // // FSM Transition Logic // wire [FSM_STATE_WIDTH-1:0] fsm_state_after_mult_square; + wire [FSM_STATE_WIDTH-1:0] fsm_state_after_mult_triangle; - always @(posedge clk) // case (fsm_state_next) + // FSM_STATE_MULT_SQUARE_COL_0_INIT, FSM_STATE_MULT_SQUARE_COL_N_INIT: mac_slim_bram_xy_addr <= 8'd0; FSM_STATE_MULT_SQUARE_COL_0_TRIG, FSM_STATE_MULT_SQUARE_COL_N_TRIG, FSM_STATE_MULT_SQUARE_COL_0_BUSY, FSM_STATE_MULT_SQUARE_COL_N_BUSY: mac_slim_bram_xy_addr <= !mult_square_addr_almost_done_flop ? mac_slim_bram_xy_addr + 1'b1 : 8'd0; + // + FSM_STATE_MULT_TRIANGLE_COL_0_INIT, + FSM_STATE_MULT_TRIANGLE_COL_N_INIT: mac_slim_bram_xy_addr <= 8'd0; + FSM_STATE_MULT_TRIANGLE_COL_0_TRIG, + FSM_STATE_MULT_TRIANGLE_COL_N_TRIG, + FSM_STATE_MULT_TRIANGLE_COL_0_BUSY, + FSM_STATE_MULT_TRIANGLE_COL_N_BUSY: mac_slim_bram_xy_addr <= mult_triangle_addr_almost_done_flop || (col_is_last && mult_triangle_addr_surely_done_flop) ? + 8'd0 : mac_slim_bram_xy_addr + 1'b1; + // default: mac_slim_bram_xy_addr <= 8'dX; endcase + + wire [2:0] fat_bram_offset_rom[0:3]; + + generate for (z=1; z 0) + if (mac_fat_bram_xy_addr_current > 8'd0) mac_fat_bram_xy_addr_next = mac_fat_bram_xy_addr_current - 1'b1; else mac_fat_bram_xy_addr_next = mac_fat_bram_xy_addr_last; @@ -541,26 +710,41 @@ module tb_square; // case (fsm_state_next) // - FSM_STATE_MULT_SQUARE_COL_0_INIT: begin - col_index <= 5'd0; - col_index_last <= index_last[7:3]; + FSM_STATE_MULT_SQUARE_COL_0_INIT, + FSM_STATE_MULT_TRIANGLE_COL_0_INIT: begin + col_index <= 5'd0; + col_index_last <= index_last[7:3]; + col_index_next1 <= 5'd1; + //col_index_next2 <= 5'd2; + col_is_last <= 1'b0; + end // - FSM_STATE_MULT_SQUARE_COL_N_INIT: - col_index <= col_index + 1'b1; + FSM_STATE_MULT_SQUARE_COL_N_INIT, + FSM_STATE_MULT_TRIANGLE_COL_N_INIT: begin + col_index <= col_index_next1; + col_is_last <= col_index_next1 == col_index_last; + col_index_next1 <= col_index_next1 == col_index_last ? 5'd0 : col_index_next1 + 5'd1; + //col_index_next2 <= col_index_next2 + 1'b1; + end // endcase - assign fsm_state_after_mult_square = (col_index == col_index_last) ? FSM_STATE_MULT_SQUARE_HOLDOFF : FSM_STATE_MULT_SQUARE_COL_N_INIT; + assign fsm_state_after_mult_square = col_is_last ? FSM_STATE_MULT_SQUARE_HOLDOFF : FSM_STATE_MULT_SQUARE_COL_N_INIT; + assign fsm_state_after_mult_triangle = col_is_last ? FSM_STATE_MULT_TRIANGLE_HOLDOFF : FSM_STATE_MULT_TRIANGLE_COL_N_INIT; always @(posedge clk) // case (fsm_state_next) FSM_STATE_MULT_SQUARE_COL_0_TRIG, - FSM_STATE_MULT_SQUARE_COL_N_TRIG: dsp_xy_mode_z_adv4 <= {8{1'b0}}; + FSM_STATE_MULT_SQUARE_COL_N_TRIG: dsp_xy_mode_z_adv4 <= {9{1'b0}}; FSM_STATE_MULT_SQUARE_COL_0_BUSY, - FSM_STATE_MULT_SQUARE_COL_N_BUSY: dsp_xy_mode_z_adv4 <= calc_mac_mode_z_square(col_index_prev, mac_slim_bram_xy_addr_dly); - default: dsp_xy_mode_z_adv4 <= {8{1'b1}}; + FSM_STATE_MULT_SQUARE_COL_N_BUSY: dsp_xy_mode_z_adv4 <= calc_mac_mode_z_square(col_index_prev, mac_slim_bram_xy_addr_dly); + FSM_STATE_MULT_TRIANGLE_COL_0_TRIG, + FSM_STATE_MULT_TRIANGLE_COL_N_TRIG: dsp_xy_mode_z_adv4 <= {9{1'b0}}; + FSM_STATE_MULT_TRIANGLE_COL_0_BUSY, + FSM_STATE_MULT_TRIANGLE_COL_N_BUSY: dsp_xy_mode_z_adv4 <= {9{1'b1}}; + default: dsp_xy_mode_z_adv4 <= {9{1'b1}}; endcase always @(posedge clk) begin @@ -571,25 +755,45 @@ module tb_square; dsp_xy_mode_z_adv3 <= {dsp_xy_mode_z_adv4}; end - function [NUM_MULTS-1:0] calc_mac_mode_z_square; - input [ 4:0] col_index_value; - input [ 7:0] mac_slim_bram_xy_addr_value; + function [NUM_MULTS:0] calc_mac_mode_z_square; + input [ 4:0] col_index_value; + input [ 7:0] mac_slim_bram_xy_addr_value; begin if (mac_slim_bram_xy_addr_value[7:3] == col_index_value) case (mac_slim_bram_xy_addr_value[2:0]) - 3'b000: calc_mac_mode_z_square = 8'b11111110; - 3'b001: calc_mac_mode_z_square = 8'b11111101; - 3'b010: calc_mac_mode_z_square = 8'b11111011; - 3'b011: calc_mac_mode_z_square = 8'b11110111; - 3'b100: calc_mac_mode_z_square = 8'b11101111; - 3'b101: calc_mac_mode_z_square = 8'b11011111; - 3'b110: calc_mac_mode_z_square = 8'b10111111; - 3'b111: calc_mac_mode_z_square = 8'b01111111; + 3'b000: calc_mac_mode_z_square = {1'b1, 8'b11111110}; + 3'b001: calc_mac_mode_z_square = {1'b1, 8'b11111101}; + 3'b010: calc_mac_mode_z_square = {1'b1, 8'b11111011}; + 3'b011: calc_mac_mode_z_square = {1'b1, 8'b11110111}; + 3'b100: calc_mac_mode_z_square = {1'b1, 8'b11101111}; + 3'b101: calc_mac_mode_z_square = {1'b1, 8'b11011111}; + 3'b110: calc_mac_mode_z_square = {1'b1, 8'b10111111}; + 3'b111: calc_mac_mode_z_square = {1'b1, 8'b01111111}; endcase else - calc_mac_mode_z_square = {NUM_MULTS{1'b1}}; + calc_mac_mode_z_square = {1'b1, {NUM_MULTS{1'b1}}}; end endfunction + /* + function [NUM_MULTS:0] calc_mac_mode_z_triangle; + input [ 4:0] col_index_value; + input [ 7:0] mac_slim_bram_xy_addr_value; + begin + if (mac_slim_bram_xy_addr_value[7:3] == col_index_value) + case (mac_slim_bram_xy_addr_value[2:0]) + 3'b000: calc_mac_mode_z_square = {1'b1, 8'b11111110}; + 3'b001: calc_mac_mode_z_square = {1'b1, 8'b11111101}; + 3'b010: calc_mac_mode_z_square = {1'b1, 8'b11111011}; + 3'b011: calc_mac_mode_z_square = {1'b1, 8'b11110111}; + 3'b100: calc_mac_mode_z_square = {1'b1, 8'b11101111}; + 3'b101: calc_mac_mode_z_square = {1'b1, 8'b11011111}; + 3'b110: calc_mac_mode_z_square = {1'b1, 8'b10111111}; + 3'b111: calc_mac_mode_z_square = {1'b1, 8'b01111111}; + endcase + else + calc_mac_mode_z_square = {1'b1, {NUM_MULTS{1'b1}}}; + end + endfunction*/ reg recomb_x_ena = 1'b0; reg recomb_y_ena = 1'b0; @@ -623,6 +827,7 @@ module tb_square; .col_index (col_index), .col_index_last (col_index_last), .slim_bram_xy_addr (mac_slim_bram_xy_addr), + .slim_bram_xy_bank (mac_slim_bram_xy_bank), .fat_bram_xy_bank (recomb_fat_bram_xy_bank), .fat_bram_xy_addr (recomb_fat_bram_xy_addr), .fat_bram_x_dout (recomb_fat_bram_x_dout), @@ -631,14 +836,17 @@ module tb_square; ); reg [17:0] AB_READ[0:63]; + reg [17:0] Q_READ[0:32]; always @(posedge clk) // if (recomb_fat_bram_xy_dout_valid) // case (recomb_fat_bram_xy_bank) - 3'd1: AB_READ[recomb_fat_bram_xy_addr] <= recomb_fat_bram_x_dout; - 3'd2: AB_READ[32 + recomb_fat_bram_xy_addr] <= recomb_fat_bram_x_dout; + 3'd1: AB_READ[ (recomb_fat_bram_xy_addr % 32)] <= recomb_fat_bram_x_dout; + 3'd2: AB_READ[32 + (recomb_fat_bram_xy_addr % 32)] <= recomb_fat_bram_x_dout; + 3'd3: Q_READ [ (recomb_fat_bram_xy_addr % 32)] <= recomb_fat_bram_x_dout; + 3'd4: Q_READ [32 + (recomb_fat_bram_xy_addr % 32)] <= recomb_fat_bram_x_dout; endcase @@ -663,11 +871,8 @@ module tb_square; mgr_fat_bram_x_din <= {18{1'bX}}; mgr_fat_bram_y_din <= {18{1'bX}}; end - - - - - + + task verify_ab; reg verify_ab_ok; begin @@ -687,6 +892,28 @@ module tb_square; endtask + task verify_q; + reg verify_q_ok; + begin + verify_q_ok = 1; + for (i=0; i<33; i=i+1) + if (Q_READ[i] === Q[i]) + $display("Q / Q_READ [%02d] = 0x%05x / 0x%05x", i, Q[i], Q_READ[i]); + else begin + $display("Q / Q_READ [%02d] = 0x%05x / 0x%05x ", i, Q[i], Q_READ[i]); + verify_q_ok = 0; + end + if (verify_q_ok) + $display("Q is OK."); + else + $display("Q is WRONG!"); + end + endtask + + + wire mult_square_addr_done = mult_square_addr_surely_done_flop; + + wire mult_triangle_addr_done = !col_is_last ? mult_triangle_addr_surely_done_flop : mult_triangle_addr_tardy_done_flop; always @* begin // @@ -697,13 +924,23 @@ module tb_square; FSM_STATE_MULT_SQUARE_COL_0_INIT: fsm_state_next = FSM_STATE_MULT_SQUARE_COL_0_TRIG ; FSM_STATE_MULT_SQUARE_COL_0_TRIG: fsm_state_next = FSM_STATE_MULT_SQUARE_COL_0_BUSY ; - FSM_STATE_MULT_SQUARE_COL_0_BUSY: fsm_state_next = mult_square_addr_surely_done_flop ? FSM_STATE_MULT_SQUARE_COL_N_INIT : FSM_STATE_MULT_SQUARE_COL_0_BUSY; + FSM_STATE_MULT_SQUARE_COL_0_BUSY: fsm_state_next = mult_square_addr_done ? FSM_STATE_MULT_SQUARE_COL_N_INIT : FSM_STATE_MULT_SQUARE_COL_0_BUSY; FSM_STATE_MULT_SQUARE_COL_N_INIT: fsm_state_next = FSM_STATE_MULT_SQUARE_COL_N_TRIG ; FSM_STATE_MULT_SQUARE_COL_N_TRIG: fsm_state_next = FSM_STATE_MULT_SQUARE_COL_N_BUSY ; - FSM_STATE_MULT_SQUARE_COL_N_BUSY: fsm_state_next = mult_square_addr_surely_done_flop ? fsm_state_after_mult_square : FSM_STATE_MULT_SQUARE_COL_N_BUSY; + FSM_STATE_MULT_SQUARE_COL_N_BUSY: fsm_state_next = mult_square_addr_done ? fsm_state_after_mult_square : FSM_STATE_MULT_SQUARE_COL_N_BUSY; + + FSM_STATE_MULT_SQUARE_HOLDOFF: fsm_state_next = recomb_rdy ? FSM_STATE_MULT_TRIANGLE_COL_0_INIT : FSM_STATE_MULT_SQUARE_HOLDOFF; + + FSM_STATE_MULT_TRIANGLE_COL_0_INIT: fsm_state_next = FSM_STATE_MULT_TRIANGLE_COL_0_TRIG ; + FSM_STATE_MULT_TRIANGLE_COL_0_TRIG: fsm_state_next = FSM_STATE_MULT_TRIANGLE_COL_0_BUSY ; + FSM_STATE_MULT_TRIANGLE_COL_0_BUSY: fsm_state_next = mult_triangle_addr_done ? FSM_STATE_MULT_TRIANGLE_COL_N_INIT : FSM_STATE_MULT_TRIANGLE_COL_0_BUSY; + + FSM_STATE_MULT_TRIANGLE_COL_N_INIT: fsm_state_next = FSM_STATE_MULT_TRIANGLE_COL_N_TRIG ; + FSM_STATE_MULT_TRIANGLE_COL_N_TRIG: fsm_state_next = FSM_STATE_MULT_TRIANGLE_COL_N_BUSY ; + FSM_STATE_MULT_TRIANGLE_COL_N_BUSY: fsm_state_next = mult_triangle_addr_done ? fsm_state_after_mult_triangle : FSM_STATE_MULT_TRIANGLE_COL_N_BUSY; - FSM_STATE_MULT_SQUARE_HOLDOFF: fsm_state_next = recomb_rdy ? FSM_STATE_IDLE : FSM_STATE_MULT_SQUARE_HOLDOFF; + FSM_STATE_MULT_TRIANGLE_HOLDOFF: fsm_state_next = FSM_STATE_MULT_TRIANGLE_HOLDOFF;//recomb_rdy ? FSM_STATE_IDLE : FSM_STATE_MULT_SQUARE_HOLDOFF; default: fsm_state_next = FSM_STATE_IDLE ; -- cgit v1.2.3