diff options
author | Pavel V. Shatov (Meister) <meisterpaul1@yandex.ru> | 2018-12-19 15:40:36 +0300 |
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committer | Pavel V. Shatov (Meister) <meisterpaul1@yandex.ru> | 2018-12-19 15:40:36 +0300 |
commit | 4abd3ef0466dfbfe4b08488125375bccdd581d6a (patch) | |
tree | 9135d495924a2378dd101dcacb12a897cf33e603 /rtl/curve/curve_dbl_add_384.v | |
parent | 4b83a09434a1fe9b796c6c69388fc926c0794090 (diff) |
Diffstat (limited to 'rtl/curve/curve_dbl_add_384.v')
-rw-r--r-- | rtl/curve/curve_dbl_add_384.v | 893 |
1 files changed, 0 insertions, 893 deletions
diff --git a/rtl/curve/curve_dbl_add_384.v b/rtl/curve/curve_dbl_add_384.v deleted file mode 100644 index cc983f3..0000000 --- a/rtl/curve/curve_dbl_add_384.v +++ /dev/null @@ -1,893 +0,0 @@ -//------------------------------------------------------------------------------ -// -// curve_dbl_add_384.v -// ----------------------------------------------------------------------------- -// Elliptic curve point adder and doubler. -// -// Authors: Pavel Shatov -// -// Copyright (c) 2016, 2018 NORDUnet A/S -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are met: -// -// - Redistributions of source code must retain the above copyright notice, -// this list of conditions and the following disclaimer. -// -// - Redistributions in binary form must reproduce the above copyright notice, -// this list of conditions and the following disclaimer in the documentation -// and/or other materials provided with the distribution. -// -// - Neither the name of the NORDUnet nor the names of its contributors may be -// used to endorse or promote products derived from this software without -// specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" -// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE -// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE -// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR -// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF -// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS -// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN -// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -// POSSIBILITY OF SUCH DAMAGE. -// -//------------------------------------------------------------------------------ - -module curve_dbl_add_384 - ( - clk, rst_n, - ena, rdy, - uop_addr, uop, - px_addr, py_addr, pz_addr, rx_addr, ry_addr, rz_addr, q_addr, v_addr, - rx_wren, ry_wren, rz_wren, - px_din, py_din, pz_din, - rx_din, ry_din, rz_din, - rx_dout, ry_dout, rz_dout, q_din, v_din - ); - - - // - // Microcode - // -`include "../../../../math/ecdsalib/rtl/curve/uop_ecdsa.v" - - - // - // Constants - // - localparam WORD_COUNTER_WIDTH = 4; // 0 .. 11 - localparam OPERAND_NUM_WORDS = 12; // 12 * 32 = 384 - - - // - // Ports - // - input wire clk; // system clock - input wire rst_n; // active-low async reset - - input wire ena; // enable input - output wire rdy; // ready output - - output reg [ 6-1: 0] uop_addr; - input wire [20-1: 0] uop; - - output reg [WORD_COUNTER_WIDTH-1:0] px_addr; - output reg [WORD_COUNTER_WIDTH-1:0] py_addr; - output reg [WORD_COUNTER_WIDTH-1:0] pz_addr; - output reg [WORD_COUNTER_WIDTH-1:0] rx_addr; - output reg [WORD_COUNTER_WIDTH-1:0] ry_addr; - output reg [WORD_COUNTER_WIDTH-1:0] rz_addr; - output reg [WORD_COUNTER_WIDTH-1:0] v_addr; - output wire [WORD_COUNTER_WIDTH-1:0] q_addr; - - output wire rx_wren; - output wire ry_wren; - output wire rz_wren; - - input wire [ 32-1:0] px_din; - input wire [ 32-1:0] py_din; - input wire [ 32-1:0] pz_din; - input wire [ 32-1:0] rx_din; - input wire [ 32-1:0] ry_din; - input wire [ 32-1:0] rz_din; - output wire [ 32-1:0] rx_dout; - output wire [ 32-1:0] ry_dout; - output wire [ 32-1:0] rz_dout; - input wire [ 32-1:0] q_din; - input wire [ 32-1:0] v_din; - - - // - // Microcode - // - wire [ 4: 0] uop_opcode = uop[19:15]; - wire [ 4: 0] uop_src_a = uop[14:10]; - wire [ 4: 0] uop_src_b = uop[ 9: 5]; - wire [ 2: 0] uop_dst = uop[ 4: 2]; - wire [ 1: 0] uop_exec = uop[ 1: 0]; - - - // - // Multi-Word Comparator - // - wire mw_cmp_ena; - wire mw_cmp_rdy; - - wire mw_cmp_out_l; - wire mw_cmp_out_e; - wire mw_cmp_out_g; - - wire [WORD_COUNTER_WIDTH-1:0] mw_cmp_addr_xy; - - wire [ 32-1:0] mw_cmp_din_x; - wire [ 32-1:0] mw_cmp_din_y; - - // flags - reg flag_pz_is_zero; - reg flag_t1_is_zero; - reg flag_t2_is_zero; - - mw_comparator # - ( - .WORD_COUNTER_WIDTH (WORD_COUNTER_WIDTH), - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS) - ) - mw_comparator_inst - ( - .clk (clk), - .rst_n (rst_n), - - .ena (mw_cmp_ena), - .rdy (mw_cmp_rdy), - - .xy_addr (mw_cmp_addr_xy), - .x_din (mw_cmp_din_x), - .y_din (mw_cmp_din_y), - - .cmp_l (mw_cmp_out_l), - .cmp_e (mw_cmp_out_e), - .cmp_g (mw_cmp_out_g) - ); - - - // - // Modular Adder - // - wire mod_add_ena; - wire mod_add_rdy; - - wire [WORD_COUNTER_WIDTH-1:0] mod_add_addr_ab; - wire [WORD_COUNTER_WIDTH-1:0] mod_add_addr_n; - wire [WORD_COUNTER_WIDTH-1:0] mod_add_addr_s; - wire mod_add_wren_s; - - wire [ 32-1:0] mod_add_din_a; - wire [ 32-1:0] mod_add_din_b; - wire [ 32-1:0] mod_add_din_n; - wire [ 32-1:0] mod_add_dout_s; - - assign mod_add_din_n = q_din; - - modular_adder # - ( - .WORD_COUNTER_WIDTH (WORD_COUNTER_WIDTH), - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS) - ) - modular_adder_inst - ( - .clk (clk), - .rst_n (rst_n), - - .ena (mod_add_ena), - .rdy (mod_add_rdy), - - .ab_addr (mod_add_addr_ab), - .n_addr (mod_add_addr_n), - .s_addr (mod_add_addr_s), - .s_wren (mod_add_wren_s), - - .a_din (mod_add_din_a), - .b_din (mod_add_din_b), - .n_din (mod_add_din_n), - .s_dout (mod_add_dout_s) - ); - - - // - // Modular Subtractor - // - wire mod_sub_ena; - wire mod_sub_rdy; - - wire [WORD_COUNTER_WIDTH-1:0] mod_sub_addr_ab; - wire [WORD_COUNTER_WIDTH-1:0] mod_sub_addr_n; - wire [WORD_COUNTER_WIDTH-1:0] mod_sub_addr_d; - wire mod_sub_wren_d; - - wire [ 32-1:0] mod_sub_din_a; - wire [ 32-1:0] mod_sub_din_b; - wire [ 32-1:0] mod_sub_din_n; - wire [ 32-1:0] mod_sub_dout_d; - - assign mod_sub_din_n = q_din; - - modular_subtractor # - ( - .WORD_COUNTER_WIDTH (WORD_COUNTER_WIDTH), - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS) - ) - modular_subtractor_inst - ( - .clk (clk), - .rst_n (rst_n), - - .ena (mod_sub_ena), - .rdy (mod_sub_rdy), - - .ab_addr (mod_sub_addr_ab), - .n_addr (mod_sub_addr_n), - .d_addr (mod_sub_addr_d), - .d_wren (mod_sub_wren_d), - - .a_din (mod_sub_din_a), - .b_din (mod_sub_din_b), - .n_din (mod_sub_din_n), - .d_dout (mod_sub_dout_d) - ); - - - // - // Modular Multiplier - // - wire mod_mul_ena; - wire mod_mul_rdy; - - wire [WORD_COUNTER_WIDTH-1:0] mod_mul_addr_a; - wire [WORD_COUNTER_WIDTH-1:0] mod_mul_addr_b; - wire [WORD_COUNTER_WIDTH-1:0] mod_mul_addr_n; - wire [WORD_COUNTER_WIDTH-1:0] mod_mul_addr_p; - wire mod_mul_wren_p; - - wire [ 32-1:0] mod_mul_din_a; - wire [ 32-1:0] mod_mul_din_b; - wire [ 32-1:0] mod_mul_din_n; - wire [ 32-1:0] mod_mul_dout_p; - - assign mod_mul_din_n = q_din; - - modular_multiplier_384 modular_multiplier_inst - ( - .clk (clk), - .rst_n (rst_n), - - .ena (mod_mul_ena), - .rdy (mod_mul_rdy), - - .a_addr (mod_mul_addr_a), - .b_addr (mod_mul_addr_b), - .n_addr (mod_mul_addr_n), - .p_addr (mod_mul_addr_p), - .p_wren (mod_mul_wren_p), - - .a_din (mod_mul_din_a), - .b_din (mod_mul_din_b), - .n_din (mod_mul_din_n), - .p_dout (mod_mul_dout_p) - ); - - - // - // Multi-Word Data Mover - // - wire mw_mov_ena; - wire mw_mov_rdy; - - wire [WORD_COUNTER_WIDTH-1:0] mw_mov_addr_x; - wire [WORD_COUNTER_WIDTH-1:0] mw_mov_addr_y; - wire mw_mov_wren_y; - - wire [ 32-1:0] mw_mov_din_x; - wire [ 32-1:0] mw_mov_dout_y; - - mw_mover # - ( - .WORD_COUNTER_WIDTH (WORD_COUNTER_WIDTH), - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS) - - ) - mw_mover_inst - ( - .clk (clk), - .rst_n (rst_n), - - .ena (mw_mov_ena), - .rdy (mw_mov_rdy), - - .x_addr (mw_mov_addr_x), - .y_addr (mw_mov_addr_y), - .y_wren (mw_mov_wren_y), - - .x_din (mw_mov_din_x), - .y_dout (mw_mov_dout_y) - ); - - - // - // ROMs - // - reg [WORD_COUNTER_WIDTH-1:0] brom_one_addr; - //reg [WORD_COUNTER_WIDTH-1:0] brom_zero_addr; - reg [WORD_COUNTER_WIDTH-1:0] brom_delta_addr; - reg [WORD_COUNTER_WIDTH-1:0] brom_g_x_addr; - reg [WORD_COUNTER_WIDTH-1:0] brom_g_y_addr; - reg [WORD_COUNTER_WIDTH-1:0] brom_h_x_addr; - reg [WORD_COUNTER_WIDTH-1:0] brom_h_y_addr; - - wire [ 32-1:0] brom_one_dout; - wire [ 32-1:0] brom_zero_dout; - wire [ 32-1:0] brom_delta_dout; - wire [ 32-1:0] brom_g_x_dout; - wire [ 32-1:0] brom_g_y_dout; - wire [ 32-1:0] brom_h_x_dout; - wire [ 32-1:0] brom_h_y_dout; - - (* ROM_STYLE="BLOCK" *) brom_p384_one brom_one_inst - (.clk(clk), .b_addr(brom_one_addr), .b_out(brom_one_dout)); - - brom_p384_zero brom_zero_inst - (.b_out(brom_zero_dout)); - - (* ROM_STYLE="BLOCK" *) brom_p384_delta brom_delta_inst - (.clk(clk), .b_addr(brom_delta_addr), .b_out(brom_delta_dout)); - - (* ROM_STYLE="BLOCK" *) brom_p384_g_x brom_g_x_inst - (.clk(clk), .b_addr(brom_g_x_addr), .b_out(brom_g_x_dout)); - - (* ROM_STYLE="BLOCK" *) brom_p384_g_y brom_g_y_inst - (.clk(clk), .b_addr(brom_g_y_addr), .b_out(brom_g_y_dout)); - - (* ROM_STYLE="BLOCK" *) brom_p384_h_x brom_h_x_inst - (.clk(clk), .b_addr(brom_h_x_addr), .b_out(brom_h_x_dout)); - - (* ROM_STYLE="BLOCK" *) brom_p384_h_y brom_h_y_inst - (.clk(clk), .b_addr(brom_h_y_addr), .b_out(brom_h_y_dout)); - - - // - // Temporary Variables - // - reg [WORD_COUNTER_WIDTH-1:0] bram_t1_wr_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t2_wr_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t3_wr_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t4_wr_addr; - - reg [WORD_COUNTER_WIDTH-1:0] bram_t1_rd_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t2_rd_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t3_rd_addr; - reg [WORD_COUNTER_WIDTH-1:0] bram_t4_rd_addr; - - wire bram_t1_wr_en; - wire bram_t2_wr_en; - wire bram_t3_wr_en; - wire bram_t4_wr_en; - - wire [ 32-1:0] bram_t1_wr_data; - wire [ 32-1:0] bram_t2_wr_data; - wire [ 32-1:0] bram_t3_wr_data; - wire [ 32-1:0] bram_t4_wr_data; - - wire [ 32-1:0] bram_t1_rd_data; - wire [ 32-1:0] bram_t2_rd_data; - wire [ 32-1:0] bram_t3_rd_data; - wire [ 32-1:0] bram_t4_rd_data; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(WORD_COUNTER_WIDTH) - ) - bram_t1 - ( .clk (clk), - .a_addr(bram_t1_wr_addr), .a_wr(bram_t1_wr_en), .a_in(bram_t1_wr_data), .a_out(), - .b_addr(bram_t1_rd_addr), .b_out(bram_t1_rd_data) - ); - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(WORD_COUNTER_WIDTH) - ) - bram_t2 - ( .clk (clk), - .a_addr(bram_t2_wr_addr), .a_wr(bram_t2_wr_en), .a_in(bram_t2_wr_data), .a_out(), - .b_addr(bram_t2_rd_addr), .b_out(bram_t2_rd_data) - ); - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(WORD_COUNTER_WIDTH) - ) - bram_t3 - ( .clk (clk), - .a_addr(bram_t3_wr_addr), .a_wr(bram_t3_wr_en), .a_in(bram_t3_wr_data), .a_out(), - .b_addr(bram_t3_rd_addr), .b_out(bram_t3_rd_data) - ); - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(WORD_COUNTER_WIDTH) - ) - bram_t4 - ( .clk (clk), - .a_addr(bram_t4_wr_addr), .a_wr(bram_t4_wr_en), .a_in(bram_t4_wr_data), .a_out(), - .b_addr(bram_t4_rd_addr), .b_out(bram_t4_rd_data) - ); - - - // - // uOP Trigger Logic - // - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_fsm; - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_cmp; - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_mov; - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_add; - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_sub; - (* EQUIVALENT_REGISTER_REMOVAL="NO" *) reg uop_trig_mul; - - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) begin - uop_trig_fsm <= 1'b0; - uop_trig_cmp <= 1'b0; - uop_trig_mov <= 1'b0; - uop_trig_add <= 1'b0; - uop_trig_sub <= 1'b0; - uop_trig_mul <= 1'b0; - end else begin - uop_trig_fsm <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - uop_trig_cmp <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - uop_trig_mov <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - uop_trig_add <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - uop_trig_sub <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - uop_trig_mul <= (fsm_state == FSM_STATE_FETCH) ? 1'b1 : 1'b0; - end - - - // - // FSM - // - localparam [ 1: 0] FSM_STATE_STALL = 2'b00; - localparam [ 1: 0] FSM_STATE_FETCH = 2'b01; - localparam [ 1: 0] FSM_STATE_EXECUTE = 2'b10; - - reg [ 1: 0] fsm_state = FSM_STATE_STALL; - wire [ 1: 0] fsm_state_next = (uop_opcode == OPCODE_RDY) ? FSM_STATE_STALL : FSM_STATE_FETCH; - - - // - // FSM Transition Logic - // - reg uop_done; - - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) fsm_state <= FSM_STATE_STALL; - else case (fsm_state) - FSM_STATE_STALL: fsm_state <= ena ? FSM_STATE_FETCH : FSM_STATE_STALL; - FSM_STATE_FETCH: fsm_state <= FSM_STATE_EXECUTE; - FSM_STATE_EXECUTE: fsm_state <= (!uop_trig_fsm && uop_done) ? fsm_state_next : FSM_STATE_EXECUTE; - default: fsm_state <= FSM_STATE_STALL; - endcase - - - // - // uOP Address Increment Logic - // - always @(posedge clk) - // - if (fsm_state == FSM_STATE_STALL) - uop_addr <= 5'd0; - else if (fsm_state == FSM_STATE_EXECUTE) - if (!uop_trig_fsm && uop_done) - uop_addr <= (uop_opcode == OPCODE_RDY) ? 5'd0 : uop_addr + 1'b1; - - - // - // uOP Completion Logic - // - always @(*) - // - case (uop_opcode) - OPCODE_CMP: uop_done = mw_cmp_rdy; - OPCODE_MOV: uop_done = mw_mov_rdy; - OPCODE_ADD: uop_done = mod_add_rdy; - OPCODE_SUB: uop_done = mod_sub_rdy; - OPCODE_MUL: uop_done = mod_mul_rdy; - OPCODE_RDY: uop_done = 1'b1; - default: uop_done = 1'b0; - endcase - - - // - // Helper Modules Enable Logic - // - assign mw_cmp_ena = uop_opcode[0] & uop_trig_cmp; - assign mw_mov_ena = uop_opcode[1] & uop_trig_mov; - assign mod_add_ena = uop_opcode[2] & uop_trig_add; - assign mod_sub_ena = uop_opcode[3] & uop_trig_sub; - assign mod_mul_ena = uop_opcode[4] & uop_trig_mul; - - - // - // uOP Source Value Decoding Logic - // - reg [31: 0] uop_src_a_value; - - always @(*) - // - case (uop_src_a) - UOP_SRC_PX: uop_src_a_value = px_din; - UOP_SRC_PY: uop_src_a_value = py_din; - UOP_SRC_PZ: uop_src_a_value = pz_din; - - UOP_SRC_RX: uop_src_a_value = rx_din; - UOP_SRC_RY: uop_src_a_value = ry_din; - UOP_SRC_RZ: uop_src_a_value = rz_din; - - UOP_SRC_T1: uop_src_a_value = bram_t1_rd_data; - UOP_SRC_T2: uop_src_a_value = bram_t2_rd_data; - UOP_SRC_T3: uop_src_a_value = bram_t3_rd_data; - UOP_SRC_T4: uop_src_a_value = bram_t4_rd_data; - - UOP_SRC_ONE: uop_src_a_value = brom_one_dout; - UOP_SRC_ZERO: uop_src_a_value = brom_zero_dout; - UOP_SRC_DELTA: uop_src_a_value = brom_delta_dout; - - UOP_SRC_G_X: uop_src_a_value = brom_g_x_dout; - UOP_SRC_G_Y: uop_src_a_value = brom_g_y_dout; - - UOP_SRC_H_X: uop_src_a_value = brom_h_x_dout; - UOP_SRC_H_Y: uop_src_a_value = brom_h_y_dout; - - UOP_SRC_V: uop_src_a_value = v_din; - - default: uop_src_a_value = {32{1'bX}}; - endcase - - - assign mw_cmp_din_x = uop_src_a_value; - assign mw_mov_din_x = uop_src_a_value; - assign mod_add_din_a = uop_src_a_value; - assign mod_sub_din_a = uop_src_a_value; - assign mod_mul_din_a = uop_src_a_value; - - reg [31: 0] uop_src_b_value; - - always @(*) - // - case (uop_src_b) - UOP_SRC_PX: uop_src_b_value = px_din; - UOP_SRC_PY: uop_src_b_value = py_din; - UOP_SRC_PZ: uop_src_b_value = pz_din; - - UOP_SRC_RX: uop_src_b_value = rx_din; - UOP_SRC_RY: uop_src_b_value = ry_din; - UOP_SRC_RZ: uop_src_b_value = rz_din; - - UOP_SRC_T1: uop_src_b_value = bram_t1_rd_data; - UOP_SRC_T2: uop_src_b_value = bram_t2_rd_data; - UOP_SRC_T3: uop_src_b_value = bram_t3_rd_data; - UOP_SRC_T4: uop_src_b_value = bram_t4_rd_data; - - UOP_SRC_ONE: uop_src_b_value = brom_one_dout; - UOP_SRC_ZERO: uop_src_b_value = brom_zero_dout; - UOP_SRC_DELTA: uop_src_b_value = brom_delta_dout; - - UOP_SRC_G_X: uop_src_b_value = brom_g_x_dout; - UOP_SRC_G_Y: uop_src_b_value = brom_g_y_dout; - - UOP_SRC_H_X: uop_src_b_value = brom_h_x_dout; - UOP_SRC_H_Y: uop_src_b_value = brom_h_y_dout; - - UOP_SRC_V: uop_src_b_value = v_din; - - default: uop_src_b_value = {32{1'bX}}; - endcase - - assign mw_cmp_din_y = uop_src_b_value; - assign mod_add_din_b = uop_src_b_value; - assign mod_sub_din_b = uop_src_b_value; - assign mod_mul_din_b = uop_src_b_value; - - - // - // uOP Source & Destination Address Decoding Logic - // - reg [WORD_COUNTER_WIDTH-1:0] uop_src_a_addr; - reg [WORD_COUNTER_WIDTH-1:0] uop_src_b_addr; - reg [WORD_COUNTER_WIDTH-1:0] uop_dst_addr; - reg [WORD_COUNTER_WIDTH-1:0] uop_q_addr; - - assign q_addr = uop_q_addr; - - always @(*) - // - case (uop_opcode) - // - OPCODE_CMP: begin - uop_src_a_addr = mw_cmp_addr_xy; - uop_src_b_addr = mw_cmp_addr_xy; - uop_dst_addr = {WORD_COUNTER_WIDTH{1'bX}}; - uop_q_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - OPCODE_MOV: begin - uop_src_a_addr = mw_mov_addr_x; - uop_src_b_addr = {WORD_COUNTER_WIDTH{1'bX}}; - uop_dst_addr = mw_mov_addr_y; - uop_q_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - OPCODE_ADD: begin - uop_src_a_addr = mod_add_addr_ab; - uop_src_b_addr = mod_add_addr_ab; - uop_dst_addr = mod_add_addr_s; - uop_q_addr = mod_add_addr_n; - end - // - OPCODE_SUB: begin - uop_src_a_addr = mod_sub_addr_ab; - uop_src_b_addr = mod_sub_addr_ab; - uop_dst_addr = mod_sub_addr_d; - uop_q_addr = mod_sub_addr_n; - end - // - OPCODE_MUL: begin - uop_src_a_addr = mod_mul_addr_a; - uop_src_b_addr = mod_mul_addr_b; - uop_dst_addr = mod_mul_addr_p; - uop_q_addr = mod_mul_addr_n; - end - // - default: begin - uop_src_a_addr = {WORD_COUNTER_WIDTH{1'bX}}; - uop_src_b_addr = {WORD_COUNTER_WIDTH{1'bX}}; - uop_dst_addr = {WORD_COUNTER_WIDTH{1'bX}}; - uop_q_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - endcase - - - // - // uOP Conditional Execution Logic - // - reg uop_exec_effective; - - always @(*) - // - case (uop_exec) - UOP_EXEC_ALWAYS: uop_exec_effective = 1'b1; - UOP_EXEC_PZT1T2_0XX: uop_exec_effective = flag_pz_is_zero; - UOP_EXEC_PZT1T2_100: uop_exec_effective = !flag_pz_is_zero && flag_t1_is_zero && flag_t2_is_zero; - UOP_EXEC_PZT1T2_101: uop_exec_effective = !flag_pz_is_zero && flag_t1_is_zero && !flag_t2_is_zero; - endcase - - - // - // uOP Destination Store Logic - // - reg uop_dst_wren; - - always @(*) - // - case (uop_opcode) - // - OPCODE_MOV: uop_dst_wren = mw_mov_wren_y & uop_exec_effective; - OPCODE_ADD: uop_dst_wren = mod_add_wren_s; - OPCODE_SUB: uop_dst_wren = mod_sub_wren_d; - OPCODE_MUL: uop_dst_wren = mod_mul_wren_p; - default: uop_dst_wren = 1'b0; - // - endcase - - - always @(*) begin - // - // - // - if (uop_src_a == UOP_SRC_PX) px_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_PX) px_addr = uop_src_b_addr; - else px_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_PY) py_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_PY) py_addr = uop_src_b_addr; - else py_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_PZ) pz_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_PZ) pz_addr = uop_src_b_addr; - else pz_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_src_a == UOP_SRC_ONE) brom_one_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_ONE) brom_one_addr = uop_src_b_addr; - else brom_one_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - //if (uop_src_a == UOP_SRC_ZERO) brom_zero_addr = uop_src_a_addr; - //else if (uop_src_b == UOP_SRC_ZERO) brom_zero_addr = uop_src_b_addr; - //else brom_zero_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_DELTA) brom_delta_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_DELTA) brom_delta_addr = uop_src_b_addr; - else brom_delta_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_src_a == UOP_SRC_G_X) brom_g_x_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_G_X) brom_g_x_addr = uop_src_b_addr; - else brom_g_x_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_G_Y) brom_g_y_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_G_Y) brom_g_y_addr = uop_src_b_addr; - else brom_g_y_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_src_a == UOP_SRC_H_X) brom_h_x_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_H_X) brom_h_x_addr = uop_src_b_addr; - else brom_h_x_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_H_Y) brom_h_y_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_H_Y) brom_h_y_addr = uop_src_b_addr; - else brom_h_y_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_src_a == UOP_SRC_V) v_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_V) v_addr = uop_src_b_addr; - else v_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_src_a == UOP_SRC_T1) bram_t1_rd_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_T1) bram_t1_rd_addr = uop_src_b_addr; - else bram_t1_rd_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_T2) bram_t2_rd_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_T2) bram_t2_rd_addr = uop_src_b_addr; - else bram_t2_rd_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_T3) bram_t3_rd_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_T3) bram_t3_rd_addr = uop_src_b_addr; - else bram_t3_rd_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_src_a == UOP_SRC_T4) bram_t4_rd_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_T4) bram_t4_rd_addr = uop_src_b_addr; - else bram_t4_rd_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if (uop_dst == UOP_DST_T1) bram_t1_wr_addr = uop_dst_addr; - else bram_t1_wr_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_dst == UOP_DST_T2) bram_t2_wr_addr = uop_dst_addr; - else bram_t2_wr_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_dst == UOP_DST_T3) bram_t3_wr_addr = uop_dst_addr; - else bram_t3_wr_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - if (uop_dst == UOP_DST_T4) bram_t4_wr_addr = uop_dst_addr; - else bram_t4_wr_addr = {WORD_COUNTER_WIDTH{1'bX}}; - // - // - // - if ((uop_dst == UOP_DST_RX) && (uop_dst_wren)) rx_addr = uop_dst_addr; - else begin - if (uop_src_a == UOP_SRC_RX) rx_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_RX) rx_addr = uop_src_b_addr; - else rx_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - if ((uop_dst == UOP_DST_RY) && (uop_dst_wren)) ry_addr = uop_dst_addr; - else begin - if (uop_src_a == UOP_SRC_RY) ry_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_RY) ry_addr = uop_src_b_addr; - else ry_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - if ((uop_dst == UOP_DST_RZ) && (uop_dst_wren)) rz_addr = uop_dst_addr; - else begin - if (uop_src_a == UOP_SRC_RZ) rz_addr = uop_src_a_addr; - else if (uop_src_b == UOP_SRC_RZ) rz_addr = uop_src_b_addr; - else rz_addr = {WORD_COUNTER_WIDTH{1'bX}}; - end - // - end - - - assign rx_wren = uop_dst_wren && (uop_dst == UOP_DST_RX); - assign ry_wren = uop_dst_wren && (uop_dst == UOP_DST_RY); - assign rz_wren = uop_dst_wren && (uop_dst == UOP_DST_RZ); - - assign bram_t1_wr_en = uop_dst_wren && (uop_dst == UOP_DST_T1); - assign bram_t2_wr_en = uop_dst_wren && (uop_dst == UOP_DST_T2); - assign bram_t3_wr_en = uop_dst_wren && (uop_dst == UOP_DST_T3); - assign bram_t4_wr_en = uop_dst_wren && (uop_dst == UOP_DST_T4); - - - - // - // Destination Value Selector - // - reg [31: 0] uop_dst_value; - - always @(*) - // - case (uop_opcode) - - OPCODE_MOV: uop_dst_value = mw_mov_dout_y; - OPCODE_ADD: uop_dst_value = mod_add_dout_s; - OPCODE_SUB: uop_dst_value = mod_sub_dout_d; - OPCODE_MUL: uop_dst_value = mod_mul_dout_p; - - default: uop_dst_value = {32{1'bX}}; - - endcase - - assign rx_dout = uop_dst_value; - assign ry_dout = uop_dst_value; - assign rz_dout = uop_dst_value; - - assign bram_t1_wr_data = uop_dst_value; - assign bram_t2_wr_data = uop_dst_value; - assign bram_t3_wr_data = uop_dst_value; - assign bram_t4_wr_data = uop_dst_value; - - - // - // Latch Comparison Flags - // - always @(posedge clk) - // - if ( (fsm_state == FSM_STATE_EXECUTE) && - (uop_opcode == OPCODE_CMP) && - (uop_done && !uop_trig_cmp) ) begin - - if ( (uop_src_a == UOP_SRC_PZ) && (uop_src_b == UOP_SRC_ZERO) ) - flag_pz_is_zero <= !mw_cmp_out_l && mw_cmp_out_e && !mw_cmp_out_g; - - if ( (uop_src_a == UOP_SRC_T1) && (uop_src_b == UOP_SRC_ZERO) ) - flag_t1_is_zero <= !mw_cmp_out_l && mw_cmp_out_e && !mw_cmp_out_g; - - if ( (uop_src_a == UOP_SRC_T2) && (uop_src_b == UOP_SRC_ZERO) ) - flag_t2_is_zero <= !mw_cmp_out_l && mw_cmp_out_e && !mw_cmp_out_g; - - end - - - // - // Ready Flag Logic - // - reg rdy_reg = 1'b1; - assign rdy = rdy_reg; - - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) rdy_reg <= 1'b1; - else begin - - /* clear flag */ - if (fsm_state == FSM_STATE_STALL) - if (ena) rdy_reg <= 1'b0; - - /* set flag */ - if ((fsm_state == FSM_STATE_EXECUTE) && !uop_trig_fsm && uop_done) - if (uop_opcode == OPCODE_RDY) rdy_reg <= 1'b1; - - end - - -endmodule - - -//------------------------------------------------------------------------------ -// End-of-File -//------------------------------------------------------------------------------ |