From c09de3ee3a303bfab596def8e0b5c8b845e5a97f Mon Sep 17 00:00:00 2001 From: Rob Austein Date: Tue, 7 Mar 2017 19:55:09 -0500 Subject: Promote to a repository in the core tree. Change name of reset signal from rst_n to reset_n for consistancy with other Cryptech cores. Code common between this core and the ecdsa256 core split out into a separate library repository. Minor cleanup (Windows-isms, indentation). --- .../modular_invertor/helper/modinv_helper_copy.v | 148 ---- .../modular_invertor/helper/modinv_helper_init.v | 172 ---- .../helper/modinv_helper_invert_compare.v | 286 ------ .../helper/modinv_helper_invert_precalc.v | 408 --------- .../helper/modinv_helper_invert_update.v | 257 ------ .../helper/modinv_helper_reduce_precalc.v | 328 ------- .../helper/modinv_helper_reduce_update.v | 153 ---- rtl/modular/modular_invertor/modinv_clog2.v | 10 - rtl/modular/modular_invertor/modular_invertor.v | 981 --------------------- 9 files changed, 2743 deletions(-) delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_copy.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_init.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_invert_compare.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_invert_precalc.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_invert_update.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_reduce_precalc.v delete mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_reduce_update.v delete mode 100644 rtl/modular/modular_invertor/modinv_clog2.v delete mode 100644 rtl/modular/modular_invertor/modular_invertor.v (limited to 'rtl/modular/modular_invertor') diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_copy.v b/rtl/modular/modular_invertor/helper/modinv_helper_copy.v deleted file mode 100644 index 07c1b4f..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_copy.v +++ /dev/null @@ -1,148 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_copy - ( - clk, rst_n, - ena, rdy, - s_addr, s_din, - a1_addr, a1_wren, a1_dout - ); - - - // - // Parameters - // - parameter OPERAND_NUM_WORDS = 8; - parameter OPERAND_ADDR_BITS = 3; - - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = OPERAND_NUM_WORDS + 2; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - - input wire ena; - output wire rdy; - - output wire [ BUFFER_ADDR_BITS-1:0] s_addr; - output wire [OPERAND_ADDR_BITS-1:0] a1_addr; - - output wire a1_wren; - - input wire [ 31:0] s_din; - - output wire [ 31:0] a1_dout; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [OPERAND_ADDR_BITS-1:0] addr_s; - - wire [OPERAND_ADDR_BITS-1:0] addr_s_max = OPERAND_NUM_WORDS - 1; - wire [OPERAND_ADDR_BITS-1:0] addr_s_zero = {OPERAND_ADDR_BITS{1'b0}}; - wire [OPERAND_ADDR_BITS-1:0] addr_s_next = (addr_s < addr_s_max) ? - addr_s + 1'b1 : addr_s_zero; - - reg [OPERAND_ADDR_BITS-1:0] addr_a1; - - wire [OPERAND_ADDR_BITS-1:0] addr_a1_max = OPERAND_NUM_WORDS - 1; - wire [OPERAND_ADDR_BITS-1:0] addr_a1_zero = {OPERAND_ADDR_BITS{1'b0}}; - wire [OPERAND_ADDR_BITS-1:0] addr_a1_next = (addr_a1 < addr_a1_max) ? - addr_a1 + 1'b1 : addr_a1_zero; - - assign s_addr = {{(BUFFER_ADDR_BITS - OPERAND_ADDR_BITS){1'b0}}, addr_s}; - assign a1_addr = addr_a1; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment Logic - // - wire inc_addr_s; - wire inc_addr_a1; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_s_start = 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_s_stop = OPERAND_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_a1_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_a1_stop = OPERAND_NUM_WORDS + 1; - - assign inc_addr_s = (proc_cnt >= cnt_inc_addr_s_start) && (proc_cnt <= cnt_inc_addr_s_stop); - assign inc_addr_a1 = (proc_cnt >= cnt_inc_addr_a1_start) && (proc_cnt <= cnt_inc_addr_a1_stop); - - always @(posedge clk) begin - // - if (inc_addr_s) addr_s <= addr_s_next; - else addr_s <= addr_s_zero; - // - if (inc_addr_a1) addr_a1 <= addr_a1_next; - else addr_a1 <= addr_a1_zero; - // - end - - - // - // Write Enable Logic - // - wire wren_a1; - - wire [PROC_CNT_BITS-1:0] cnt_wren_a1_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_wren_a1_stop = OPERAND_NUM_WORDS + 1; - - assign wren_a1 = (proc_cnt >= cnt_wren_a1_start) && (proc_cnt <= cnt_wren_a1_stop); - - assign a1_wren = wren_a1; - - - // - // Data Logic - // - assign a1_dout = s_din; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_init.v b/rtl/modular/modular_invertor/helper/modinv_helper_init.v deleted file mode 100644 index 0468134..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_init.v +++ /dev/null @@ -1,172 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_init - ( - clk, rst_n, - ena, rdy, - a_addr, a_din, - q_addr, q_din, - r_addr, r_wren, r_dout, - s_addr, s_wren, s_dout, - u_addr, u_wren, u_dout, - v_addr, v_wren, v_dout - ); - - - // - // Parameters - // - parameter OPERAND_NUM_WORDS = 8; - parameter OPERAND_ADDR_BITS = 3; - - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = OPERAND_NUM_WORDS + 3; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - output wire [OPERAND_ADDR_BITS-1:0] a_addr; - output wire [OPERAND_ADDR_BITS-1:0] q_addr; - output wire [ BUFFER_ADDR_BITS-1:0] r_addr; - output wire [ BUFFER_ADDR_BITS-1:0] s_addr; - output wire [ BUFFER_ADDR_BITS-1:0] u_addr; - output wire [ BUFFER_ADDR_BITS-1:0] v_addr; - - output wire r_wren; - output wire s_wren; - output wire u_wren; - output wire v_wren; - - input wire [ 31:0] a_din; - input wire [ 31:0] q_din; - output wire [ 31:0] r_dout; - output wire [ 31:0] s_dout; - output wire [ 31:0] u_dout; - output wire [ 31:0] v_dout; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [OPERAND_ADDR_BITS-1:0] addr_aq; - - wire [OPERAND_ADDR_BITS-1:0] addr_aq_max = OPERAND_NUM_WORDS - 1; - wire [OPERAND_ADDR_BITS-1:0] addr_aq_zero = {OPERAND_ADDR_BITS{1'b0}}; - wire [OPERAND_ADDR_BITS-1:0] addr_aq_next = (addr_aq < addr_aq_max) ? - addr_aq + 1'b1 : addr_aq_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_rsuv; - - wire [BUFFER_ADDR_BITS-1:0] addr_rsuv_max = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_rsuv_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_rsuv_next = (addr_rsuv < addr_rsuv_max) ? - addr_rsuv + 1'b1 : addr_rsuv_zero; - - assign a_addr = addr_aq; - assign q_addr = addr_aq; - - assign r_addr = addr_rsuv; - assign s_addr = addr_rsuv; - assign u_addr = addr_rsuv; - assign v_addr = addr_rsuv; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment Logic - // - wire inc_addr_aq; - wire inc_addr_rsuv; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_aq_start = 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_aq_stop = OPERAND_NUM_WORDS; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_rsuv_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_rsuv_stop = BUFFER_NUM_WORDS + 1; - - assign inc_addr_aq = (proc_cnt >= cnt_inc_addr_aq_start) && (proc_cnt <= cnt_inc_addr_aq_stop); - assign inc_addr_rsuv = (proc_cnt >= cnt_inc_addr_rsuv_start) && (proc_cnt <= cnt_inc_addr_rsuv_stop); - - always @(posedge clk) begin - // - if (inc_addr_aq) addr_aq <= addr_aq_next; - else addr_aq <= addr_aq_zero; - // - if (inc_addr_rsuv) addr_rsuv <= addr_rsuv_next; - else addr_rsuv <= addr_rsuv_zero; - // - end - - - // - // Write Enable Logic - // - wire wren_rsuv; - - wire [PROC_CNT_BITS-1:0] cnt_wren_rsuv_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_wren_rsuv_stop = BUFFER_NUM_WORDS + 1; - - assign wren_rsuv = (proc_cnt >= cnt_wren_rsuv_start) && (proc_cnt <= cnt_wren_rsuv_stop); - - assign r_wren = wren_rsuv; - assign s_wren = wren_rsuv; - assign u_wren = wren_rsuv; - assign v_wren = wren_rsuv; - - - // - // Data Logic - // - assign r_dout = 32'd0; - assign s_dout = (proc_cnt == cnt_wren_rsuv_start) ? 32'd1 : 32'd0; - assign u_dout = (proc_cnt != cnt_wren_rsuv_stop) ? q_din : 32'd0; - assign v_dout = (proc_cnt != cnt_wren_rsuv_stop) ? a_din : 32'd0; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_invert_compare.v b/rtl/modular/modular_invertor/helper/modinv_helper_invert_compare.v deleted file mode 100644 index 6b65eb1..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_invert_compare.v +++ /dev/null @@ -1,286 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_invert_compare - ( - clk, rst_n, - ena, rdy, - - u_addr, u_din, - v_addr, v_din, - - u_gt_v, v_eq_1, - u_is_even, v_is_even - ); - - - // - // Parameters - // - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = 1 * BUFFER_NUM_WORDS + 10; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - output wire [BUFFER_ADDR_BITS-1:0] u_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_addr; - - input wire [ 32-1:0] u_din; - input wire [ 32-1:0] v_din; - - output wire u_gt_v; - output wire v_eq_1; - output wire u_is_even; - output wire v_is_even; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [BUFFER_ADDR_BITS-1:0] addr_in; - - wire [BUFFER_ADDR_BITS-1:0] addr_in_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_in_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_in_prev = (addr_in > addr_in_zero) ? - addr_in - 1'b1 : addr_in_last; - - assign u_addr = addr_in; - assign v_addr = addr_in; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Decrement Logic - // - wire dec_addr_in; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_in_start = 0 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_in_stop = 1 * BUFFER_NUM_WORDS + 0; - - assign dec_addr_in = (proc_cnt >= cnt_dec_addr_in_start) && (proc_cnt <= cnt_dec_addr_in_stop); - - always @(posedge clk) - // - if (rdy) addr_in <= addr_in_last; - else if (dec_addr_in) addr_in <= addr_in_prev; - - - // - // Comparison Stage Flags - // - wire calc_leg; - wire calc_leg_final; - wire calc_parity; - - wire [PROC_CNT_BITS-1:0] cnt_calc_leg_start = 0 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_calc_leg_stop = 1 * BUFFER_NUM_WORDS + 2; - wire [PROC_CNT_BITS-1:0] cnt_calc_parity = 1 * BUFFER_NUM_WORDS + 1; - - assign calc_leg = (proc_cnt >= cnt_calc_leg_start) && (proc_cnt <= cnt_calc_leg_stop); - assign calc_leg_final = (proc_cnt == cnt_calc_leg_stop); - assign calc_parity = (proc_cnt == cnt_calc_parity); - - - // - // Dummy Input - // - reg sub32_din_1_lsb; - wire [31: 0] sub32_din_1 = {{31{1'b0}}, sub32_din_1_lsb}; - - always @(posedge clk) - // - sub32_din_1_lsb <= (addr_in == addr_in_zero) ? 1'b1 : 1'b0; - - - // - // Subtractor (u - v) - // - wire [31: 0] sub32_u_minus_v_difference_out; - wire sub32_u_minus_v_borrow_in; - wire sub32_u_minus_v_borrow_out; - - subtractor32_wrapper sub32_u_minus_v - ( - .clk (clk), - .a (u_din), - .b (v_din), - .d (sub32_u_minus_v_difference_out), - .b_in (sub32_u_minus_v_borrow_in), - .b_out (sub32_u_minus_v_borrow_out) - ); - - - // - // Subtractor (v - 1) - // - wire [31: 0] sub32_v_minus_1_difference_out; - wire sub32_v_minus_1_borrow_in; - wire sub32_v_minus_1_borrow_out; - - subtractor32_wrapper sub32_v_minus_1 - ( - .clk (clk), - .a (v_din), - .b (sub32_din_1), - .d (sub32_v_minus_1_difference_out), - .b_in (sub32_v_minus_1_borrow_in), - .b_out (sub32_v_minus_1_borrow_out) - ); - - - - // - // Borrow Masking Logic - // - reg mask_borrow; - - always @(posedge clk) - // - mask_borrow <= ((proc_cnt > cnt_dec_addr_in_start) && (proc_cnt <= cnt_dec_addr_in_stop)) ? - 1'b0 : 1'b1; - - assign sub32_u_minus_v_borrow_in = sub32_u_minus_v_borrow_out & ~mask_borrow; - assign sub32_v_minus_1_borrow_in = sub32_v_minus_1_borrow_out & ~mask_borrow; - - - // - // Comparison Logic - // - reg cmp_u_v_l; - reg cmp_u_v_e; - reg cmp_u_v_g; - - reg cmp_v_1_l; - reg cmp_v_1_e; - reg cmp_v_1_g; - - wire cmp_unresolved_u_v = !(cmp_u_v_l || cmp_u_v_g); - wire cmp_unresolved_v_1 = !(cmp_v_1_l || cmp_v_1_g); - - wire cmp_u_v_borrow_is_set = (sub32_u_minus_v_borrow_out == 1'b1) ? 1'b1 : 1'b0; - wire cmp_u_v_difference_is_nonzero = (sub32_u_minus_v_difference_out != 32'd0) ? 1'b1 : 1'b0; - - wire cmp_v_1_borrow_is_set = (sub32_v_minus_1_borrow_out == 1'b1) ? 1'b1 : 1'b0; - wire cmp_v_1_difference_is_nonzero = (sub32_v_minus_1_difference_out != 32'd0) ? 1'b1 : 1'b0; - - reg u_is_even_reg; - reg v_is_even_reg; - - always @(posedge clk) - // - if (rdy) begin - // - if (ena) begin - // - cmp_u_v_l <= 1'b0; - cmp_u_v_e <= 1'b0; - cmp_u_v_g <= 1'b0; - // - cmp_v_1_l <= 1'b0; - cmp_v_1_e <= 1'b0; - cmp_v_1_g <= 1'b0; - // - u_is_even_reg <= 1'bX; - v_is_even_reg <= 1'bX; - // - end - // - end else begin - // - // parity - // - if (calc_parity) begin - u_is_even_reg <= ~u_din[0]; - v_is_even_reg <= ~v_din[0]; - end - // - // u <> v - // - if (cmp_unresolved_u_v && calc_leg) begin - // - if (cmp_u_v_borrow_is_set) - cmp_u_v_l <= 1'b1; - // - if (!cmp_u_v_borrow_is_set && cmp_u_v_difference_is_nonzero) - cmp_u_v_g <= 1'b1; - // - if (!cmp_u_v_borrow_is_set && !cmp_u_v_difference_is_nonzero && calc_leg_final) - cmp_u_v_e <= 1'b1; - // - end - // - // v <> 1 - // - if (cmp_unresolved_v_1 && calc_leg) begin - // - if (cmp_v_1_borrow_is_set) - cmp_v_1_l <= 1'b1; - // - if (!cmp_v_1_borrow_is_set && cmp_v_1_difference_is_nonzero) - cmp_v_1_g <= 1'b1; - // - if (!cmp_v_1_borrow_is_set && !cmp_v_1_difference_is_nonzero && calc_leg_final) - cmp_v_1_e <= 1'b1; - // - end - // - end - - - // - // Output Flags - // - assign u_gt_v = !cmp_u_v_l && !cmp_u_v_e && cmp_u_v_g; - assign v_eq_1 = !cmp_v_1_l && cmp_v_1_e && !cmp_v_1_g; - - assign u_is_even = u_is_even_reg; - assign v_is_even = v_is_even_reg; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_invert_precalc.v b/rtl/modular/modular_invertor/helper/modinv_helper_invert_precalc.v deleted file mode 100644 index ab15563..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_invert_precalc.v +++ /dev/null @@ -1,408 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_invert_precalc - ( - clk, rst_n, - ena, rdy, - - r_addr, r_din, - s_addr, s_din, - u_addr, u_din, - v_addr, v_din, - - r_dbl_addr, r_dbl_wren, r_dbl_dout, - s_dbl_addr, s_dbl_wren, s_dbl_dout, - r_plus_s_addr, r_plus_s_wren, r_plus_s_dout, - u_half_addr, u_half_wren, u_half_dout, - v_half_addr, v_half_wren, v_half_dout, - u_minus_v_addr, u_minus_v_wren, u_minus_v_dout, u_minus_v_din, - v_minus_u_addr, v_minus_u_wren, v_minus_u_dout, v_minus_u_din, - u_minus_v_half_addr, u_minus_v_half_wren, u_minus_v_half_dout, - v_minus_u_half_addr, v_minus_u_half_wren, v_minus_u_half_dout - ); - - - // - // Parameters - // - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = 2 * BUFFER_NUM_WORDS + 4; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - output wire [BUFFER_ADDR_BITS-1:0] r_addr; - output wire [BUFFER_ADDR_BITS-1:0] s_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_addr; - - input wire [ 32-1:0] r_din; - input wire [ 32-1:0] s_din; - input wire [ 32-1:0] u_din; - input wire [ 32-1:0] v_din; - - output wire [BUFFER_ADDR_BITS-1:0] r_dbl_addr; - output wire [BUFFER_ADDR_BITS-1:0] s_dbl_addr; - output wire [BUFFER_ADDR_BITS-1:0] r_plus_s_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_minus_v_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_minus_u_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_minus_v_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_minus_u_half_addr; - - output wire [ 32-1:0] r_dbl_dout; - output wire [ 32-1:0] s_dbl_dout; - output wire [ 32-1:0] r_plus_s_dout; - output wire [ 32-1:0] u_half_dout; - output wire [ 32-1:0] v_half_dout; - output wire [ 32-1:0] u_minus_v_dout; - output wire [ 32-1:0] v_minus_u_dout; - output wire [ 32-1:0] u_minus_v_half_dout; - output wire [ 32-1:0] v_minus_u_half_dout; - - output wire r_dbl_wren; - output wire s_dbl_wren; - output wire r_plus_s_wren; - output wire u_half_wren; - output wire v_half_wren; - output wire u_minus_v_wren; - output wire v_minus_u_wren; - output wire u_minus_v_half_wren; - output wire v_minus_u_half_wren; - - input wire [ 32-1:0] u_minus_v_din; - input wire [ 32-1:0] v_minus_u_din; - - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [BUFFER_ADDR_BITS-1:0] addr_in; - - wire [BUFFER_ADDR_BITS-1:0] addr_in_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_in_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_in_next = (addr_in < addr_in_last) ? - addr_in + 1'b1 : addr_in_zero; - wire [BUFFER_ADDR_BITS-1:0] addr_in_prev = (addr_in > addr_in_zero) ? - addr_in - 1'b1 : addr_in_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_out1; - - wire [BUFFER_ADDR_BITS-1:0] addr_out1_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out1_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out1_next = (addr_out1 < addr_out1_last) ? - addr_out1 + 1'b1 : addr_out1_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_out2; - - wire [BUFFER_ADDR_BITS-1:0] addr_out2_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out2_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out2_next = (addr_out2 < addr_out2_last) ? - addr_out2 + 1'b1 : addr_out2_zero; - wire [BUFFER_ADDR_BITS-1:0] addr_out2_prev = (addr_out2 > addr_out2_zero) ? - addr_out2 - 1'b1 : addr_out2_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_out3; - - wire [BUFFER_ADDR_BITS-1:0] addr_out3_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out3_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out3_prev = (addr_out3 > addr_out3_zero) ? - addr_out3 - 1'b1 : addr_out3_last; - - reg [BUFFER_ADDR_BITS-1:0] addr_out4; - - wire [BUFFER_ADDR_BITS-1:0] addr_out4_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out4_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out4_prev = (addr_out4 > addr_out4_zero) ? - addr_out4 - 1'b1 : addr_out4_last; - - - assign r_addr = addr_in; - assign s_addr = addr_in; - assign u_addr = addr_in; - assign v_addr = addr_in; - - assign r_dbl_addr = addr_out1; - assign s_dbl_addr = addr_out1; - assign r_plus_s_addr = addr_out2; - assign u_half_addr = addr_out3; - assign v_half_addr = addr_out3; - assign u_minus_v_addr = addr_out2; - assign v_minus_u_addr = addr_out2; - assign u_minus_v_half_addr = addr_out4; - assign v_minus_u_half_addr = addr_out4; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment/Decrement Logic - // - wire inc_addr_in; - wire dec_addr_in; - wire inc_addr_out1; - wire inc_addr_out2; - wire dec_addr_out2; - wire dec_addr_out3; - wire dec_addr_out4; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_start = 0 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_stop = 1 * BUFFER_NUM_WORDS - 1; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out1_start = 0 * BUFFER_NUM_WORDS + 2; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out1_stop = 1 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out2_start = 0 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out2_stop = 1 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out2_start = 1 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out2_stop = 2 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_in_start = 1 * BUFFER_NUM_WORDS + 0; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_in_stop = 2 * BUFFER_NUM_WORDS - 2; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out3_start = 1 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out3_stop = 2 * BUFFER_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out4_start = 1 * BUFFER_NUM_WORDS + 4; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out4_stop = 2 * BUFFER_NUM_WORDS + 3; - - assign inc_addr_in = (proc_cnt >= cnt_inc_addr_in_start) && (proc_cnt <= cnt_inc_addr_in_stop); - assign dec_addr_in = (proc_cnt >= cnt_dec_addr_in_start) && (proc_cnt <= cnt_dec_addr_in_stop); - assign inc_addr_out1 = (proc_cnt >= cnt_inc_addr_out1_start) && (proc_cnt <= cnt_inc_addr_out1_stop); - assign inc_addr_out2 = (proc_cnt >= cnt_inc_addr_out2_start) && (proc_cnt <= cnt_inc_addr_out2_stop); - assign dec_addr_out2 = (proc_cnt >= cnt_dec_addr_out2_start) && (proc_cnt <= cnt_dec_addr_out2_stop); - assign dec_addr_out3 = (proc_cnt >= cnt_dec_addr_out3_start) && (proc_cnt <= cnt_dec_addr_out3_stop); - assign dec_addr_out4 = (proc_cnt >= cnt_dec_addr_out4_start) && (proc_cnt <= cnt_dec_addr_out4_stop); - - - always @(posedge clk) begin - // - if (rdy) begin - // - addr_in <= addr_in_zero; - addr_out1 <= addr_out1_zero; - addr_out2 <= addr_out2_zero; - addr_out3 <= addr_out3_last; - addr_out4 <= addr_out4_last; - // - end else begin - // - if (inc_addr_in) addr_in <= addr_in_next; - else if (dec_addr_in) addr_in <= addr_in_prev; - // - if (inc_addr_out1) addr_out1 <= addr_out1_next; - else addr_out1 <= addr_out1_zero; - // - if (inc_addr_out2) addr_out2 <= addr_out2_next; - else if (dec_addr_out2) addr_out2 <= addr_out2_prev; - // - if (dec_addr_out3) addr_out3 <= addr_out3_prev; - else addr_out3 <= addr_out3_last; - // - if (dec_addr_out4) addr_out4 <= addr_out4_prev; - else addr_out4 <= addr_out4_last; - // - end - // - end - - - // - // Write Enable Logic - // - wire wren_out1; - wire wren_out2; - wire wren_out3; - wire wren_out4; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out1_start = 0 * BUFFER_NUM_WORDS + 2; - wire [PROC_CNT_BITS-1:0] cnt_wren_out1_stop = 1 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out2_start = 0 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_wren_out2_stop = 1 * BUFFER_NUM_WORDS + 2; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out3_start = 1 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_wren_out3_stop = 2 * BUFFER_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out4_start = 1 * BUFFER_NUM_WORDS + 4; - wire [PROC_CNT_BITS-1:0] cnt_wren_out4_stop = 2 * BUFFER_NUM_WORDS + 3; - - assign wren_out1 = (proc_cnt >= cnt_wren_out1_start) && (proc_cnt <= cnt_wren_out1_stop); - assign wren_out2 = (proc_cnt >= cnt_wren_out2_start) && (proc_cnt <= cnt_wren_out2_stop); - assign wren_out3 = (proc_cnt >= cnt_wren_out3_start) && (proc_cnt <= cnt_wren_out3_stop); - assign wren_out4 = (proc_cnt >= cnt_wren_out4_start) && (proc_cnt <= cnt_wren_out4_stop); - - assign r_dbl_wren = wren_out1; - assign s_dbl_wren = wren_out1; - assign r_plus_s_wren = wren_out2; - assign u_half_wren = wren_out3; - assign v_half_wren = wren_out3; - assign u_minus_v_wren = wren_out2; - assign v_minus_u_wren = wren_out2; - assign u_minus_v_half_wren = wren_out4; - assign v_minus_u_half_wren = wren_out4; - - - // - // Adder (r + s) - // - wire [31: 0] add32_r_plus_s_sum_out; - wire add32_r_plus_s_carry_in; - wire add32_r_plus_s_carry_out; - - adder32_wrapper add32_r_plus_s - ( - .clk (clk), - .a (r_din), - .b (s_din), - .s (add32_r_plus_s_sum_out), - .c_in (add32_r_plus_s_carry_in), - .c_out (add32_r_plus_s_carry_out) - ); - - // - // Subtractor (u - v) - // - wire [31: 0] sub32_u_minus_v_difference_out; - wire sub32_u_minus_v_borrow_in; - wire sub32_u_minus_v_borrow_out; - - subtractor32_wrapper sub32_u_minus_v - ( - .clk (clk), - .a (u_din), - .b (v_din), - .d (sub32_u_minus_v_difference_out), - .b_in (sub32_u_minus_v_borrow_in), - .b_out (sub32_u_minus_v_borrow_out) - ); - - // - // Subtractor (v - u) - // - wire [31: 0] sub32_v_minus_u_difference_out; - wire sub32_v_minus_u_borrow_in; - wire sub32_v_minus_u_borrow_out; - - subtractor32_wrapper sub32_v_minus_u - ( - .clk (clk), - .a (v_din), - .b (u_din), - .d (sub32_v_minus_u_difference_out), - .b_in (sub32_v_minus_u_borrow_in), - .b_out (sub32_v_minus_u_borrow_out) - ); - - - // - // Carry & Borrow Masking Logic - // - reg mask_carry_borrow; - - always @(posedge clk) - // - mask_carry_borrow <= ((proc_cnt >= cnt_wren_out1_start) && (proc_cnt < cnt_wren_out1_stop)) ? - 1'b0 : 1'b1; - - assign add32_r_plus_s_carry_in = add32_r_plus_s_carry_out & ~mask_carry_borrow; - assign sub32_u_minus_v_borrow_in = sub32_u_minus_v_borrow_out & ~mask_carry_borrow; - assign sub32_v_minus_u_borrow_in = sub32_v_minus_u_borrow_out & ~mask_carry_borrow; - - - // - // Carry Bits - // - reg r_dbl_carry; - reg s_dbl_carry; - reg u_half_carry; - reg v_half_carry; - reg u_minus_v_half_carry; - reg v_minus_u_half_carry; - - always @(posedge clk) begin - - r_dbl_carry <= ((proc_cnt >= cnt_wren_out1_start) && (proc_cnt < cnt_wren_out1_stop)) ? - r_din[31] : 1'b0; - - s_dbl_carry <= ((proc_cnt >= cnt_wren_out1_start) && (proc_cnt < cnt_wren_out1_stop)) ? - s_din[31] : 1'b0; - - u_half_carry <= ((proc_cnt >= cnt_wren_out3_start) && (proc_cnt < cnt_wren_out3_stop)) ? - u_din[0] : 1'b0; - - v_half_carry <= ((proc_cnt >= cnt_wren_out3_start) && (proc_cnt < cnt_wren_out3_stop)) ? - v_din[0] : 1'b0; - - u_minus_v_half_carry <= ((proc_cnt >= cnt_wren_out4_start) && (proc_cnt < cnt_wren_out4_stop)) ? - u_minus_v_din[0] : 1'b0; - - v_minus_u_half_carry <= ((proc_cnt >= cnt_wren_out4_start) && (proc_cnt < cnt_wren_out4_stop)) ? - v_minus_u_din[0] : 1'b0; - - end - - - // - // Data Mapper - // - assign r_dbl_dout = {r_din[30:0], r_dbl_carry}; - assign s_dbl_dout = {s_din[30:0], s_dbl_carry}; - assign r_plus_s_dout = add32_r_plus_s_sum_out; - assign u_half_dout = {u_half_carry, u_din[31:1]}; - assign v_half_dout = {v_half_carry, v_din[31:1]}; - assign u_minus_v_dout = sub32_u_minus_v_difference_out; - assign v_minus_u_dout = sub32_v_minus_u_difference_out; - assign u_minus_v_half_dout = {u_minus_v_half_carry, u_minus_v_din[31:1]}; - assign v_minus_u_half_dout = {v_minus_u_half_carry, v_minus_u_din[31:1]}; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_invert_update.v b/rtl/modular/modular_invertor/helper/modinv_helper_invert_update.v deleted file mode 100644 index 0cd6ac5..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_invert_update.v +++ /dev/null @@ -1,257 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_invert_update - ( - clk, rst_n, - ena, rdy, - - u_gt_v, v_eq_1, - u_is_even, v_is_even, - - r_addr, r_wren, r_dout, - s_addr, s_wren, s_dout, - u_addr, u_wren, u_dout, - v_addr, v_wren, v_dout, - - r_dbl_addr, r_dbl_din, - s_dbl_addr, s_dbl_din, - r_plus_s_addr, r_plus_s_din, - u_half_addr, u_half_din, - v_half_addr, v_half_din, - u_minus_v_half_addr, u_minus_v_half_din, - v_minus_u_half_addr, v_minus_u_half_din - ); - - - // - // Parameters - // - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = BUFFER_NUM_WORDS + 3; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - input wire u_gt_v; - input wire v_eq_1; - input wire u_is_even; - input wire v_is_even; - - output wire [BUFFER_ADDR_BITS-1:0] r_addr; - output wire [BUFFER_ADDR_BITS-1:0] s_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_addr; - - output wire r_wren; - output wire s_wren; - output wire u_wren; - output wire v_wren; - - output wire [ 32-1:0] r_dout; - output wire [ 32-1:0] s_dout; - output wire [ 32-1:0] u_dout; - output wire [ 32-1:0] v_dout; - - output wire [BUFFER_ADDR_BITS-1:0] r_dbl_addr; - output wire [BUFFER_ADDR_BITS-1:0] s_dbl_addr; - output wire [BUFFER_ADDR_BITS-1:0] r_plus_s_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_minus_v_half_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_minus_u_half_addr; - - input wire [ 32-1:0] r_dbl_din; - input wire [ 32-1:0] s_dbl_din; - input wire [ 32-1:0] r_plus_s_din; - input wire [ 32-1:0] u_half_din; - input wire [ 32-1:0] v_half_din; - input wire [ 32-1:0] u_minus_v_half_din; - input wire [ 32-1:0] v_minus_u_half_din; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [BUFFER_ADDR_BITS-1:0] addr_in; - - wire [BUFFER_ADDR_BITS-1:0] addr_in_max = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_in_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_in_next = (addr_in < addr_in_max) ? - addr_in + 1'b1 : addr_in_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_out; - - wire [BUFFER_ADDR_BITS-1:0] addr_out_max = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out_next = (addr_out < addr_out_max) ? - addr_out + 1'b1 : addr_out_zero; - - assign r_addr = addr_out; - assign s_addr = addr_out; - assign u_addr = addr_out; - assign v_addr = addr_out; - - assign r_dbl_addr = addr_in; - assign s_dbl_addr = addr_in; - assign r_plus_s_addr = addr_in; - assign u_half_addr = addr_in; - assign v_half_addr = addr_in; - assign u_minus_v_half_addr = addr_in; - assign v_minus_u_half_addr = addr_in; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment Logic - // - wire inc_addr_in; - wire inc_addr_out; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_start = 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_stop = BUFFER_NUM_WORDS; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out_stop = BUFFER_NUM_WORDS + 1; - - assign inc_addr_in = (proc_cnt >= cnt_inc_addr_in_start) && (proc_cnt <= cnt_inc_addr_in_stop); - assign inc_addr_out = (proc_cnt >= cnt_inc_addr_out_start) && (proc_cnt <= cnt_inc_addr_out_stop); - - always @(posedge clk) begin - // - if (inc_addr_in) addr_in <= addr_in_next; - else addr_in <= addr_in_zero; - // - if (inc_addr_out) addr_out <= addr_out_next; - else addr_out <= addr_out_zero; - // - end - - // - // Write Enable Logic - // - wire wren_out; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_wren_out_stop = BUFFER_NUM_WORDS + 1; - - assign wren_out = (proc_cnt >= cnt_wren_out_start) && (proc_cnt <= cnt_wren_out_stop); - - reg r_wren_allow; - reg s_wren_allow; - reg u_wren_allow; - reg v_wren_allow; - - assign r_wren = wren_out && r_wren_allow && !v_eq_1 && !rdy; - assign s_wren = wren_out && s_wren_allow && !v_eq_1 && !rdy; - assign u_wren = wren_out && u_wren_allow && !v_eq_1 && !rdy; - assign v_wren = wren_out && v_wren_allow && !v_eq_1 && !rdy; - - - // - // Data Logic - // - reg [31: 0] r_dout_mux; - reg [31: 0] s_dout_mux; - reg [31: 0] u_dout_mux; - reg [31: 0] v_dout_mux; - - assign r_dout = r_dout_mux; - assign s_dout = s_dout_mux; - assign u_dout = u_dout_mux; - assign v_dout = v_dout_mux; - - always @(*) begin - // - // r, s, u, v - // - if (u_is_even) begin - // - u_dout_mux = u_half_din; - v_dout_mux = {32{1'bX}}; - r_dout_mux = {32{1'bX}}; - s_dout_mux = s_dbl_din; - // - u_wren_allow = 1'b1; - v_wren_allow = 1'b0; - r_wren_allow = 1'b0; - s_wren_allow = 1'b1; - // - end else begin - // - if (v_is_even) begin - // - u_dout_mux = {32{1'bX}}; - v_dout_mux = v_half_din; - r_dout_mux = r_dbl_din; - s_dout_mux = {32{1'bX}}; - // - u_wren_allow = 1'b0; - v_wren_allow = 1'b1; - r_wren_allow = 1'b1; - s_wren_allow = 1'b0; - // - end else begin - // - u_dout_mux = u_gt_v ? u_minus_v_half_din : {32{1'bX}}; - v_dout_mux = u_gt_v ? {32{1'bX}} : v_minus_u_half_din; - r_dout_mux = u_gt_v ? r_plus_s_din : r_dbl_din; - s_dout_mux = u_gt_v ? s_dbl_din : r_plus_s_din; - // - u_wren_allow = u_gt_v; - v_wren_allow = !u_gt_v; - r_wren_allow = 1'b1; - s_wren_allow = 1'b1; - // - end - // - end - // - end - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_reduce_precalc.v b/rtl/modular/modular_invertor/helper/modinv_helper_reduce_precalc.v deleted file mode 100644 index fb858a6..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_reduce_precalc.v +++ /dev/null @@ -1,328 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_reduce_precalc - ( - clk, rst_n, - ena, rdy, - - k, - - s_is_odd, k_is_nul, - - r_addr, r_din, r_wren, r_dout, - s_addr, s_din, - u_addr, u_wren, u_dout, - v_addr, v_wren, v_dout, - q_addr, q_din - ); - - - // - // Parameters - // - parameter OPERAND_NUM_WORDS = 8; - parameter OPERAND_ADDR_BITS = 3; - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - parameter K_NUM_BITS = 10; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = 2 * BUFFER_NUM_WORDS + 4; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - input wire [ K_NUM_BITS-1:0] k; - - output wire s_is_odd; - output wire k_is_nul; - - output wire [ BUFFER_ADDR_BITS-1:0] r_addr; - output wire [ BUFFER_ADDR_BITS-1:0] s_addr; - output wire [ BUFFER_ADDR_BITS-1:0] u_addr; - output wire [ BUFFER_ADDR_BITS-1:0] v_addr; - output wire [OPERAND_ADDR_BITS-1:0] q_addr; - - input wire [ 32-1:0] r_din; - input wire [ 32-1:0] s_din; - input wire [ 32-1:0] q_din; - - output wire r_wren; - output wire u_wren; - output wire v_wren; - - output wire [ 32-1:0] r_dout; - output wire [ 32-1:0] u_dout; - output wire [ 32-1:0] v_dout; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [ BUFFER_ADDR_BITS-1:0] addr_in_buf; - reg [OPERAND_ADDR_BITS-1:0] addr_in_op; - reg [ BUFFER_ADDR_BITS-1:0] addr_out1; - reg [ BUFFER_ADDR_BITS-1:0] addr_out2; - reg [ BUFFER_ADDR_BITS-1:0] addr_out3; - - wire [ BUFFER_ADDR_BITS-1:0] addr_in_buf_last = BUFFER_NUM_WORDS - 1; - wire [ BUFFER_ADDR_BITS-1:0] addr_in_buf_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [ BUFFER_ADDR_BITS-1:0] addr_in_buf_next = (addr_in_buf < addr_in_buf_last) ? - addr_in_buf + 1'b1 : addr_in_buf_zero; - wire [ BUFFER_ADDR_BITS-1:0] addr_in_buf_prev = (addr_in_buf > addr_in_buf_zero) ? - addr_in_buf - 1'b1 : addr_in_buf_zero; - - wire [OPERAND_ADDR_BITS-1:0] addr_in_op_last = OPERAND_NUM_WORDS - 1; - wire [OPERAND_ADDR_BITS-1:0] addr_in_op_zero = {OPERAND_ADDR_BITS{1'b0}}; - wire [OPERAND_ADDR_BITS-1:0] addr_in_op_next = (addr_in_op < addr_in_op_last) ? - addr_in_op + 1'b1 : addr_in_op_zero; - - wire [BUFFER_ADDR_BITS-1:0] addr_out1_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out1_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out1_next = (addr_out1 < addr_out1_last) ? - addr_out1 + 1'b1 : addr_out1_zero; - wire [BUFFER_ADDR_BITS-1:0] addr_out1_prev = (addr_out1 > addr_out1_zero) ? - addr_out1 - 1'b1 : addr_out1_zero; - - wire [BUFFER_ADDR_BITS-1:0] addr_out2_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out2_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out2_prev = (addr_out2 > addr_out2_zero) ? - addr_out2 - 1'b1 : addr_out2_last; - - wire [BUFFER_ADDR_BITS-1:0] addr_out3_last = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out3_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out3_prev = (addr_out3 > addr_out3_zero) ? - addr_out3 - 1'b1 : addr_out3_last; - - - assign s_addr = addr_in_buf; - assign q_addr = addr_in_op; - assign r_addr = addr_out1; - assign u_addr = addr_out2; - assign v_addr = addr_out3; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment/Decrement Logic - // - wire inc_addr_buf_in; - wire dec_addr_buf_in; - wire inc_addr_op_in; - wire inc_addr_out1; - wire dec_addr_out1; - wire dec_addr_out2; - wire dec_addr_out3; - - wire [PROC_CNT_BITS-1:0] cnt_calc_flags = 0 * BUFFER_NUM_WORDS + 2; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_buf_in_start = 0 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_buf_in_stop = 1 * BUFFER_NUM_WORDS - 1; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_buf_in_start = 1 * BUFFER_NUM_WORDS + 0; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_buf_in_stop = 2 * BUFFER_NUM_WORDS - 2; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_op_in_start = 0 * OPERAND_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_op_in_stop = 1 * OPERAND_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out1_start = 0 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out1_stop = 1 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out1_start = 1 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out1_stop = 2 * BUFFER_NUM_WORDS + 1; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out2_start = 1 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out2_stop = 2 * BUFFER_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out3_start = 1 * BUFFER_NUM_WORDS + 4; - wire [PROC_CNT_BITS-1:0] cnt_dec_addr_out3_stop = 2 * BUFFER_NUM_WORDS + 3; - - assign inc_addr_buf_in = (proc_cnt >= cnt_inc_addr_buf_in_start) && (proc_cnt <= cnt_inc_addr_buf_in_stop); - assign dec_addr_buf_in = (proc_cnt >= cnt_dec_addr_buf_in_start) && (proc_cnt <= cnt_dec_addr_buf_in_stop); - assign inc_addr_op_in = (proc_cnt >= cnt_inc_addr_op_in_start) && (proc_cnt <= cnt_inc_addr_op_in_stop); - assign inc_addr_out1 = (proc_cnt >= cnt_inc_addr_out1_start) && (proc_cnt <= cnt_inc_addr_out1_stop); - assign dec_addr_out1 = (proc_cnt >= cnt_dec_addr_out1_start) && (proc_cnt <= cnt_dec_addr_out1_stop); - assign dec_addr_out2 = (proc_cnt >= cnt_dec_addr_out2_start) && (proc_cnt <= cnt_dec_addr_out2_stop); - assign dec_addr_out3 = (proc_cnt >= cnt_dec_addr_out3_start) && (proc_cnt <= cnt_dec_addr_out3_stop); - - always @(posedge clk) begin - // - if (rdy) begin - // - addr_in_buf <= addr_in_buf_zero; - addr_in_op <= addr_in_op_zero; - addr_out1 <= addr_out1_zero; - addr_out2 <= addr_out2_last; - addr_out3 <= addr_out3_last; - // - end else begin - // - if (inc_addr_buf_in) addr_in_buf <= addr_in_buf_next; - else if (dec_addr_buf_in) addr_in_buf <= addr_in_buf_prev; - // - if (inc_addr_op_in) addr_in_op <= addr_in_op_next; - else addr_in_op <= addr_in_op_zero; - // - if (inc_addr_out1) addr_out1 <= addr_out1_next; - else if (dec_addr_out1) addr_out1 <= addr_out1_prev; - // - if (dec_addr_out2) addr_out2 <= addr_out2_prev; - else addr_out2 <= addr_out2_last; - // - if (dec_addr_out3) addr_out3 <= addr_out3_prev; - else addr_out3 <= addr_out3_last; - // - end - // - end - - - // - // Write Enable Logic - // - wire wren_out1; - wire wren_out2; - wire wren_out3; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out1_start = 0 * BUFFER_NUM_WORDS + 3; - wire [PROC_CNT_BITS-1:0] cnt_wren_out1_stop = 1 * BUFFER_NUM_WORDS + 2; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out2_start = 1 * BUFFER_NUM_WORDS + 1; - wire [PROC_CNT_BITS-1:0] cnt_wren_out2_stop = 2 * BUFFER_NUM_WORDS + 0; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out3_start = 1 * BUFFER_NUM_WORDS + 4; - wire [PROC_CNT_BITS-1:0] cnt_wren_out3_stop = 2 * BUFFER_NUM_WORDS + 3; - - assign wren_out1 = (proc_cnt >= cnt_wren_out1_start) && (proc_cnt <= cnt_wren_out1_stop); - assign wren_out2 = (proc_cnt >= cnt_wren_out2_start) && (proc_cnt <= cnt_wren_out2_stop); - assign wren_out3 = (proc_cnt >= cnt_wren_out3_start) && (proc_cnt <= cnt_wren_out3_stop); - - assign r_wren = wren_out1; - assign u_wren = wren_out2; - assign v_wren = wren_out3; - - // - // Adder (s + q) - // - wire [31: 0] q_din_masked; - wire [31: 0] add32_s_plus_q_sum_out; - wire add32_s_plus_q_carry_in; - wire add32_s_plus_q_carry_out; - - adder32_wrapper add32_r_plus_s - ( - .clk (clk), - .a (s_din), - .b (q_din_masked), - .s (add32_s_plus_q_sum_out), - .c_in (add32_s_plus_q_carry_in), - .c_out (add32_s_plus_q_carry_out) - ); - - - // - // Carry Masking Logic - // - wire mask_carry; - - assign mask_carry = ((proc_cnt >= cnt_wren_out1_start) && (proc_cnt < cnt_wren_out1_stop)) ? 1'b0 : 1'b1; - - - // - // Addend Masking Logic - // - reg q_din_mask; - - always @(posedge clk) - q_din_mask <= (addr_in_buf == addr_in_buf_last) ? 1'b1 : 1'b0; - - assign q_din_masked = q_din_mask ? {32{1'b0}} : q_din; - - assign add32_s_plus_q_carry_in = add32_s_plus_q_carry_out & ~mask_carry; - - - // - // Carry Bits - // - reg s_half_carry; - reg s_plus_q_half_carry; - - always @(posedge clk) begin - // - s_half_carry <= ((proc_cnt >= cnt_wren_out2_start) && (proc_cnt < cnt_wren_out2_stop)) ? - s_din[0] : 1'b0; - // - s_plus_q_half_carry <= ((proc_cnt >= cnt_wren_out3_start) && (proc_cnt < cnt_wren_out3_stop)) ? - r_din[0] : 1'b0; - // - end - - // - // Data Mapper - // - assign r_dout = add32_s_plus_q_sum_out; - assign u_dout = {s_half_carry, s_din[31:1]}; - assign v_dout = {s_plus_q_half_carry, r_din[31:1]}; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - - // - // Output Flags - // - reg s_is_odd_reg; - reg k_is_nul_reg; - - assign s_is_odd = s_is_odd_reg; - assign k_is_nul = k_is_nul_reg; - - always @(posedge clk) - // - if (proc_cnt == cnt_calc_flags) begin - s_is_odd_reg <= s_din[0]; - k_is_nul_reg <= (k == {K_NUM_BITS{1'b0}}) ? 1'b1 : 1'b0; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_reduce_update.v b/rtl/modular/modular_invertor/helper/modinv_helper_reduce_update.v deleted file mode 100644 index ea5b854..0000000 --- a/rtl/modular/modular_invertor/helper/modinv_helper_reduce_update.v +++ /dev/null @@ -1,153 +0,0 @@ -`timescale 1ns / 1ps - -module modinv_helper_reduce_update - ( - clk, rst_n, - ena, rdy, - - s_is_odd, k_is_nul, - - s_addr, s_wren, s_dout, - u_addr, u_din, - v_addr, v_din - ); - - - // - // Parameters - // - parameter BUFFER_NUM_WORDS = 9; - parameter BUFFER_ADDR_BITS = 4; - - - // - // clog2 - // -`include "..\modinv_clog2.v" - - - // - // Constants - // - localparam PROC_NUM_CYCLES = BUFFER_NUM_WORDS + 3; - localparam PROC_CNT_BITS = clog2(PROC_NUM_CYCLES); - - - // - // Ports - // - input wire clk; - input wire rst_n; - input wire ena; - output wire rdy; - - input wire s_is_odd; - input wire k_is_nul; - - output wire [BUFFER_ADDR_BITS-1:0] s_addr; - output wire [BUFFER_ADDR_BITS-1:0] u_addr; - output wire [BUFFER_ADDR_BITS-1:0] v_addr; - - output wire s_wren; - - output wire [ 32-1:0] s_dout; - - input wire [ 32-1:0] u_din; - input wire [ 32-1:0] v_din; - - - // - // Counter - // - reg [PROC_CNT_BITS-1:0] proc_cnt; - - wire [PROC_CNT_BITS-1:0] proc_cnt_max = PROC_NUM_CYCLES - 1; - wire [PROC_CNT_BITS-1:0] proc_cnt_zero = {PROC_CNT_BITS{1'b0}}; - wire [PROC_CNT_BITS-1:0] proc_cnt_next = (proc_cnt < proc_cnt_max) ? - proc_cnt + 1'b1 : proc_cnt_zero; - - // - // Addresses - // - reg [BUFFER_ADDR_BITS-1:0] addr_in; - - wire [BUFFER_ADDR_BITS-1:0] addr_in_max = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_in_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_in_next = (addr_in < addr_in_max) ? - addr_in + 1'b1 : addr_in_zero; - - reg [BUFFER_ADDR_BITS-1:0] addr_out; - - wire [BUFFER_ADDR_BITS-1:0] addr_out_max = BUFFER_NUM_WORDS - 1; - wire [BUFFER_ADDR_BITS-1:0] addr_out_zero = {BUFFER_ADDR_BITS{1'b0}}; - wire [BUFFER_ADDR_BITS-1:0] addr_out_next = (addr_out < addr_out_max) ? - addr_out + 1'b1 : addr_out_zero; - - assign s_addr = addr_out; - assign u_addr = addr_in; - assign v_addr = addr_in; - - - // - // Ready Flag - // - assign rdy = (proc_cnt == proc_cnt_zero); - - - // - // Address Increment Logic - // - wire inc_addr_in; - wire inc_addr_out; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_start = 1; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_in_stop = BUFFER_NUM_WORDS; - - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_inc_addr_out_stop = BUFFER_NUM_WORDS + 1; - - assign inc_addr_in = (proc_cnt >= cnt_inc_addr_in_start) && (proc_cnt <= cnt_inc_addr_in_stop); - assign inc_addr_out = (proc_cnt >= cnt_inc_addr_out_start) && (proc_cnt <= cnt_inc_addr_out_stop); - - always @(posedge clk) begin - // - if (inc_addr_in) addr_in <= addr_in_next; - else addr_in <= addr_in_zero; - // - if (inc_addr_out) addr_out <= addr_out_next; - else addr_out <= addr_out_zero; - // - end - - // - // Write Enable Logic - // - wire wren_out; - - wire [PROC_CNT_BITS-1:0] cnt_wren_out_start = 2; - wire [PROC_CNT_BITS-1:0] cnt_wren_out_stop = BUFFER_NUM_WORDS + 1; - - assign wren_out = (proc_cnt >= cnt_wren_out_start) && (proc_cnt <= cnt_wren_out_stop); - - assign s_wren = wren_out && !k_is_nul; //s_wren_allow && !v_eq_1 && !rdy; - - - // - // Data Logic - // - assign s_dout = s_is_odd ? v_din : u_din; - - - // - // Primary Counter Logic - // - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero; - else begin - if (!rdy) proc_cnt <= proc_cnt_next; - else if (ena) proc_cnt <= proc_cnt_next; - end - - -endmodule diff --git a/rtl/modular/modular_invertor/modinv_clog2.v b/rtl/modular/modular_invertor/modinv_clog2.v deleted file mode 100644 index 2f7b64d..0000000 --- a/rtl/modular/modular_invertor/modinv_clog2.v +++ /dev/null @@ -1,10 +0,0 @@ -function integer clog2; - input integer value; - integer result; - begin - value = value - 1; - for (result = 0; value > 0; result = result + 1) - value = value >> 1; - clog2 = result; - end -endfunction diff --git a/rtl/modular/modular_invertor/modular_invertor.v b/rtl/modular/modular_invertor/modular_invertor.v deleted file mode 100644 index e9f2460..0000000 --- a/rtl/modular/modular_invertor/modular_invertor.v +++ /dev/null @@ -1,981 +0,0 @@ -//------------------------------------------------------------------------------ -// -// modular_invertor.v -// ----------------------------------------------------------------------------- -// Modular invertor. -// -// Authors: Pavel Shatov -// -// Copyright (c) 2016, 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 modular_invertor - ( - clk, rst_n, - ena, rdy, - a_addr, q_addr, a1_addr, a1_wren, - a_din, q_din, a1_dout - ); - - - // - // Parameters - // - parameter MAX_OPERAND_WIDTH = 256; - - - // - // clog2 - // -`include "modinv_clog2.v" - - - // - // More Parameters - // - localparam OPERAND_NUM_WORDS = MAX_OPERAND_WIDTH / 32; - localparam OPERAND_ADDR_BITS = clog2(OPERAND_NUM_WORDS); - - localparam BUFFER_NUM_WORDS = OPERAND_NUM_WORDS + 1; - localparam BUFFER_ADDR_BITS = clog2(BUFFER_NUM_WORDS); - - localparam LOOP_NUM_ROUNDS = 2 * MAX_OPERAND_WIDTH; - localparam ROUND_COUNTER_BITS = clog2(LOOP_NUM_ROUNDS); - - localparam K_NUM_BITS = clog2(LOOP_NUM_ROUNDS + 1); - - - // - // Ports - // - input wire clk; - input wire rst_n; - - input wire ena; - output wire rdy; - - output wire [OPERAND_ADDR_BITS-1:0] a_addr; - output reg [OPERAND_ADDR_BITS-1:0] q_addr; - output wire [OPERAND_ADDR_BITS-1:0] a1_addr; - output wire a1_wren; - - input wire [32-1:0] a_din; - input wire [32-1:0] q_din; - output wire [32-1:0] a1_dout; - - - // - // "Redundant" Power of 2 (K) - // - reg [K_NUM_BITS-1:0] k; - - - // - // Buffers - // - reg [BUFFER_ADDR_BITS-1:0] buf_r_wr_addr; - reg [BUFFER_ADDR_BITS-1:0] buf_r_rd_addr; - reg buf_r_wr_en; - reg [ 32-1:0] buf_r_wr_din; - wire [ 32-1:0] buf_r_wr_dout; - wire [ 32-1:0] buf_r_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_r - ( .clk(clk), - .a_addr(buf_r_wr_addr), .a_out(buf_r_wr_dout), .a_wr(buf_r_wr_en), .a_in(buf_r_wr_din), - .b_addr(buf_r_rd_addr), .b_out(buf_r_rd_dout) - ); - - reg [BUFFER_ADDR_BITS-1:0] buf_s_wr_addr; - reg [BUFFER_ADDR_BITS-1:0] buf_s_rd_addr; - reg buf_s_wr_en; - reg [ 32-1:0] buf_s_wr_din; - wire [ 32-1:0] buf_s_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_s - ( .clk(clk), - .a_addr(buf_s_wr_addr), .a_out(), .a_wr(buf_s_wr_en), .a_in(buf_s_wr_din), - .b_addr(buf_s_rd_addr), .b_out(buf_s_rd_dout) - ); - - reg [BUFFER_ADDR_BITS-1:0] buf_u_wr_addr; - reg [BUFFER_ADDR_BITS-1:0] buf_u_rd_addr; - reg buf_u_wr_en; - reg [ 32-1:0] buf_u_wr_din; - wire [ 32-1:0] buf_u_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_u - ( .clk(clk), - .a_addr(buf_u_wr_addr), .a_out(), .a_wr(buf_u_wr_en), .a_in(buf_u_wr_din), - .b_addr(buf_u_rd_addr), .b_out(buf_u_rd_dout) - ); - - reg [BUFFER_ADDR_BITS-1:0] buf_v_wr_addr; - reg [BUFFER_ADDR_BITS-1:0] buf_v_rd_addr; - reg buf_v_wr_en; - reg [ 32-1:0] buf_v_wr_din; - wire [ 32-1:0] buf_v_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_v - ( .clk(clk), - .a_addr(buf_v_wr_addr), .a_out(), .a_wr(buf_v_wr_en), .a_in(buf_v_wr_din), - .b_addr(buf_v_rd_addr), .b_out(buf_v_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_r_dbl_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_r_dbl_rd_addr; - wire buf_r_dbl_wr_en; - wire [ 32-1:0] buf_r_dbl_wr_din; - wire [ 32-1:0] buf_r_dbl_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_r_dbl - ( .clk(clk), - .a_addr(buf_r_dbl_wr_addr), .a_out(), .a_wr(buf_r_dbl_wr_en), .a_in(buf_r_dbl_wr_din), - .b_addr(buf_r_dbl_rd_addr), .b_out(buf_r_dbl_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_s_dbl_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_s_dbl_rd_addr; - wire buf_s_dbl_wr_en; - wire [ 32-1:0] buf_s_dbl_wr_din; - wire [ 32-1:0] buf_s_dbl_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_s_dbl - ( .clk(clk), - .a_addr(buf_s_dbl_wr_addr), .a_out(), .a_wr(buf_s_dbl_wr_en), .a_in(buf_s_dbl_wr_din), - .b_addr(buf_s_dbl_rd_addr), .b_out(buf_s_dbl_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_r_plus_s_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_r_plus_s_rd_addr; - wire buf_r_plus_s_wr_en; - wire [ 32-1:0] buf_r_plus_s_wr_din; - wire [ 32-1:0] buf_r_plus_s_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_r_plus_s - ( .clk(clk), - .a_addr(buf_r_plus_s_wr_addr), .a_out(), .a_wr(buf_r_plus_s_wr_en), .a_in(buf_r_plus_s_wr_din), - .b_addr(buf_r_plus_s_rd_addr), .b_out(buf_r_plus_s_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_u_minus_v_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_u_minus_v_rd_addr; - wire buf_u_minus_v_wr_en; - wire [ 32-1:0] buf_u_minus_v_wr_din; - wire [ 32-1:0] buf_u_minus_v_wr_dout; - - assign buf_u_minus_v_rd_addr = ~buf_u_minus_v_wr_addr; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_u_minus_v - ( .clk(clk), - .a_addr(buf_u_minus_v_wr_addr), .a_out(buf_u_minus_v_wr_dout), .a_wr(buf_u_minus_v_wr_en), .a_in(buf_u_minus_v_wr_din), - .b_addr(buf_u_minus_v_rd_addr), .b_out() - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_v_minus_u_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_v_minus_u_rd_addr; - wire buf_v_minus_u_wr_en; - wire [ 32-1:0] buf_v_minus_u_wr_din; - wire [ 32-1:0] buf_v_minus_u_wr_dout; - - assign buf_v_minus_u_rd_addr = ~buf_v_minus_u_wr_addr; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_v_minus_u - ( .clk(clk), - .a_addr(buf_v_minus_u_wr_addr), .a_out(buf_v_minus_u_wr_dout), .a_wr(buf_v_minus_u_wr_en), .a_in(buf_v_minus_u_wr_din), - .b_addr(buf_v_minus_u_rd_addr), .b_out() - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_u_half_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_u_half_rd_addr; - wire buf_u_half_wr_en; - wire [ 32-1:0] buf_u_half_wr_din; - wire [ 32-1:0] buf_u_half_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_u_half - ( .clk(clk), - .a_addr(buf_u_half_wr_addr), .a_out(), .a_wr(buf_u_half_wr_en), .a_in(buf_u_half_wr_din), - .b_addr(buf_u_half_rd_addr), .b_out(buf_u_half_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_v_half_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_v_half_rd_addr; - wire buf_v_half_wr_en; - wire [ 32-1:0] buf_v_half_wr_din; - wire [ 32-1:0] buf_v_half_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_v_half - ( .clk(clk), - .a_addr(buf_v_half_wr_addr), .a_out(), .a_wr(buf_v_half_wr_en), .a_in(buf_v_half_wr_din), - .b_addr(buf_v_half_rd_addr), .b_out(buf_v_half_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_u_minus_v_half_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_u_minus_v_half_rd_addr; - wire buf_u_minus_v_half_wr_en; - wire [ 32-1:0] buf_u_minus_v_half_wr_din; - wire [ 32-1:0] buf_u_minus_v_half_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_u_minus_v_half - ( .clk(clk), - .a_addr(buf_u_minus_v_half_wr_addr), .a_out(), .a_wr(buf_u_minus_v_half_wr_en), .a_in(buf_u_minus_v_half_wr_din), - .b_addr(buf_u_minus_v_half_rd_addr), .b_out(buf_u_minus_v_half_rd_dout) - ); - - wire [BUFFER_ADDR_BITS-1:0] buf_v_minus_u_half_wr_addr; - wire [BUFFER_ADDR_BITS-1:0] buf_v_minus_u_half_rd_addr; - wire buf_v_minus_u_half_wr_en; - wire [ 32-1:0] buf_v_minus_u_half_wr_din; - wire [ 32-1:0] buf_v_minus_u_half_rd_dout; - - bram_1rw_1ro_readfirst # - ( .MEM_WIDTH(32), .MEM_ADDR_BITS(BUFFER_ADDR_BITS) - ) - buf_v_minus_u_half - ( .clk(clk), - .a_addr(buf_v_minus_u_half_wr_addr), .a_out(), .a_wr(buf_v_minus_u_half_wr_en), .a_in(buf_v_minus_u_half_wr_din), - .b_addr(buf_v_minus_u_half_rd_addr), .b_out(buf_v_minus_u_half_rd_dout) - ); - - - // - // Helper Modules - // - wire helper_init_ena; - wire helper_invert_precalc_ena; - wire helper_invert_compare_ena; - wire helper_invert_update_ena; - wire helper_reduce_precalc_ena; - wire helper_reduce_update_ena; - wire helper_copy_ena; - - wire helper_init_rdy; - wire helper_invert_precalc_rdy; - wire helper_invert_compare_rdy; - wire helper_invert_update_rdy; - wire helper_reduce_precalc_rdy; - wire helper_reduce_update_rdy; - wire helper_copy_rdy; - - wire helper_init_done = helper_init_rdy && !helper_init_ena; - wire helper_invert_precalc_done = helper_invert_precalc_rdy && !helper_invert_precalc_ena; - wire helper_invert_compare_done = helper_invert_compare_rdy && !helper_invert_compare_ena; - wire helper_invert_update_done = helper_invert_update_rdy && !helper_invert_update_ena; - wire helper_reduce_precalc_done = helper_reduce_precalc_rdy && !helper_reduce_precalc_ena; - wire helper_reduce_update_done = helper_reduce_update_rdy && !helper_reduce_update_ena; - wire helper_copy_done = helper_copy_rdy && !helper_copy_ena; - - - // - // Helper Module - Initialization - // - wire [ BUFFER_ADDR_BITS-1:0] helper_init_r_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_init_s_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_init_u_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_init_v_addr; - wire [OPERAND_ADDR_BITS-1:0] helper_init_q_addr; - - wire helper_init_r_wren; - wire helper_init_s_wren; - wire helper_init_u_wren; - wire helper_init_v_wren; - - wire [ 32-1:0] helper_init_r_data; - wire [ 32-1:0] helper_init_s_data; - wire [ 32-1:0] helper_init_u_data; - wire [ 32-1:0] helper_init_v_data; - - modinv_helper_init # - ( - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS), - .OPERAND_ADDR_BITS (OPERAND_ADDR_BITS), - - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_init - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_init_ena), - .rdy (helper_init_rdy), - - .a_addr (a_addr), - .q_addr (helper_init_q_addr), - - .r_addr (helper_init_r_addr), - .s_addr (helper_init_s_addr), - .u_addr (helper_init_u_addr), - .v_addr (helper_init_v_addr), - - .q_din (q_din), - .a_din (a_din), - - .r_dout (helper_init_r_data), - .s_dout (helper_init_s_data), - .u_dout (helper_init_u_data), - .v_dout (helper_init_v_data), - - .r_wren (helper_init_r_wren), - .s_wren (helper_init_s_wren), - .u_wren (helper_init_u_wren), - .v_wren (helper_init_v_wren) - ); - - - // - // Helper Module - Inversion Pre-Calculation - // - wire [BUFFER_ADDR_BITS-1:0] helper_invert_precalc_r_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_precalc_s_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_precalc_u_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_precalc_v_addr; - - modinv_helper_invert_precalc # - ( - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_invert_precalc - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_invert_precalc_ena), - .rdy (helper_invert_precalc_rdy), - - .r_addr (helper_invert_precalc_r_addr), - .s_addr (helper_invert_precalc_s_addr), - .u_addr (helper_invert_precalc_u_addr), - .v_addr (helper_invert_precalc_v_addr), - - .r_din (buf_r_rd_dout), - .s_din (buf_s_rd_dout), - .u_din (buf_u_rd_dout), - .v_din (buf_v_rd_dout), - - .r_dbl_addr (buf_r_dbl_wr_addr), - .s_dbl_addr (buf_s_dbl_wr_addr), - .r_plus_s_addr (buf_r_plus_s_wr_addr), - - .u_half_addr (buf_u_half_wr_addr), - .v_half_addr (buf_v_half_wr_addr), - .u_minus_v_addr (buf_u_minus_v_wr_addr), - .v_minus_u_addr (buf_v_minus_u_wr_addr), - .u_minus_v_half_addr (buf_u_minus_v_half_wr_addr), - .v_minus_u_half_addr (buf_v_minus_u_half_wr_addr), - - .r_dbl_dout (buf_r_dbl_wr_din), - .s_dbl_dout (buf_s_dbl_wr_din), - .r_plus_s_dout (buf_r_plus_s_wr_din), - - .u_half_dout (buf_u_half_wr_din), - .v_half_dout (buf_v_half_wr_din), - .u_minus_v_dout (buf_u_minus_v_wr_din), - .v_minus_u_dout (buf_v_minus_u_wr_din), - .u_minus_v_half_dout (buf_u_minus_v_half_wr_din), - .v_minus_u_half_dout (buf_v_minus_u_half_wr_din), - - .r_dbl_wren (buf_r_dbl_wr_en), - .s_dbl_wren (buf_s_dbl_wr_en), - .r_plus_s_wren (buf_r_plus_s_wr_en), - - .u_half_wren (buf_u_half_wr_en), - .v_half_wren (buf_v_half_wr_en), - .u_minus_v_wren (buf_u_minus_v_wr_en), - .v_minus_u_wren (buf_v_minus_u_wr_en), - .u_minus_v_half_wren (buf_u_minus_v_half_wr_en), - .v_minus_u_half_wren (buf_v_minus_u_half_wr_en), - - .u_minus_v_din (buf_u_minus_v_wr_dout), - .v_minus_u_din (buf_v_minus_u_wr_dout) - ); - - - // - // Helper Module - Inversion Comparison - // - wire [BUFFER_ADDR_BITS-1:0] helper_invert_compare_u_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_compare_v_addr; - - wire flag_invert_u_gt_v; - wire flag_invert_v_eq_1; - wire flag_invert_u_is_even; - wire flag_invert_v_is_even; - - modinv_helper_invert_compare # - ( - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_invert_compare - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_invert_compare_ena), - .rdy (helper_invert_compare_rdy), - - .u_addr (helper_invert_compare_u_addr), - .v_addr (helper_invert_compare_v_addr), - - .u_din (buf_u_rd_dout), - .v_din (buf_v_rd_dout), - - .u_gt_v (flag_invert_u_gt_v), - .v_eq_1 (flag_invert_v_eq_1), - .u_is_even (flag_invert_u_is_even), - .v_is_even (flag_invert_v_is_even) - ); - - - // - // Helper Module - Inversion Update - // - wire [BUFFER_ADDR_BITS-1:0] helper_invert_update_r_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_update_s_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_update_u_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_invert_update_v_addr; - - wire helper_invert_update_r_wren; - wire helper_invert_update_s_wren; - wire helper_invert_update_u_wren; - wire helper_invert_update_v_wren; - - wire [ 32-1:0] helper_invert_update_r_data; - wire [ 32-1:0] helper_invert_update_s_data; - wire [ 32-1:0] helper_invert_update_u_data; - wire [ 32-1:0] helper_invert_update_v_data; - - modinv_helper_invert_update # - ( - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_invert_update - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_invert_update_ena), - .rdy (helper_invert_update_rdy), - - .u_gt_v (flag_invert_u_gt_v), - .v_eq_1 (flag_invert_v_eq_1), - .u_is_even (flag_invert_u_is_even), - .v_is_even (flag_invert_v_is_even), - - .r_addr (helper_invert_update_r_addr), - .s_addr (helper_invert_update_s_addr), - .u_addr (helper_invert_update_u_addr), - .v_addr (helper_invert_update_v_addr), - - .r_wren (helper_invert_update_r_wren), - .s_wren (helper_invert_update_s_wren), - .u_wren (helper_invert_update_u_wren), - .v_wren (helper_invert_update_v_wren), - - .r_dout (helper_invert_update_r_data), - .s_dout (helper_invert_update_s_data), - .u_dout (helper_invert_update_u_data), - .v_dout (helper_invert_update_v_data), - - .r_dbl_addr (buf_r_dbl_rd_addr), - .s_dbl_addr (buf_s_dbl_rd_addr), - .r_plus_s_addr (buf_r_plus_s_rd_addr), - .u_half_addr (buf_u_half_rd_addr), - .v_half_addr (buf_v_half_rd_addr), - .u_minus_v_half_addr (buf_u_minus_v_half_rd_addr), - .v_minus_u_half_addr (buf_v_minus_u_half_rd_addr), - - .r_dbl_din (buf_r_dbl_rd_dout), - .s_dbl_din (buf_s_dbl_rd_dout), - .r_plus_s_din (buf_r_plus_s_rd_dout), - .u_half_din (buf_u_half_rd_dout), - .v_half_din (buf_v_half_rd_dout), - .u_minus_v_half_din (buf_u_minus_v_half_rd_dout), - .v_minus_u_half_din (buf_v_minus_u_half_rd_dout) - ); - - - // - // Helper Module - Reduction Pre-Calculation - // - wire [ BUFFER_ADDR_BITS-1:0] helper_reduce_precalc_r_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_reduce_precalc_s_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_reduce_precalc_u_addr; - wire [ BUFFER_ADDR_BITS-1:0] helper_reduce_precalc_v_addr; - wire [OPERAND_ADDR_BITS-1:0] helper_reduce_precalc_q_addr; - - wire helper_reduce_precalc_r_wren; - wire helper_reduce_precalc_u_wren; - wire helper_reduce_precalc_v_wren; - - wire [ 32-1:0] helper_reduce_precalc_r_data; - wire [ 32-1:0] helper_reduce_precalc_u_data; - wire [ 32-1:0] helper_reduce_precalc_v_data; - - wire flag_reduce_s_is_odd; - wire flag_invert_k_is_nul; - - modinv_helper_reduce_precalc # - ( - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS), - .OPERAND_ADDR_BITS (OPERAND_ADDR_BITS), - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS), - .K_NUM_BITS (K_NUM_BITS) - ) - helper_reduce_precalc - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_reduce_precalc_ena), - .rdy (helper_reduce_precalc_rdy), - - .r_addr (helper_reduce_precalc_r_addr), - .s_addr (helper_reduce_precalc_s_addr), - .u_addr (helper_reduce_precalc_u_addr), - .v_addr (helper_reduce_precalc_v_addr), - .q_addr (helper_reduce_precalc_q_addr), - - .k (k), - - .s_is_odd (flag_reduce_s_is_odd), - .k_is_nul (flag_reduce_k_is_nul), - - .r_din (buf_r_wr_dout), - .s_din (buf_s_rd_dout), - .q_din (q_din), - - .r_wren (helper_reduce_precalc_r_wren), - .u_wren (helper_reduce_precalc_u_wren), - .v_wren (helper_reduce_precalc_v_wren), - - .r_dout (helper_reduce_precalc_r_data), - .u_dout (helper_reduce_precalc_u_data), - .v_dout (helper_reduce_precalc_v_data) - ); - - // - // Helper Module - Reduction Update - // - wire [BUFFER_ADDR_BITS-1:0] helper_reduce_update_s_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_reduce_update_u_addr; - wire [BUFFER_ADDR_BITS-1:0] helper_reduce_update_v_addr; - - wire helper_reduce_update_s_wren; - - wire [ 32-1:0] helper_reduce_update_s_data; - - modinv_helper_reduce_update # - ( - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_reduce_update - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_reduce_update_ena), - .rdy (helper_reduce_update_rdy), - - .s_is_odd (flag_reduce_s_is_odd), - .k_is_nul (flag_reduce_k_is_nul), - - .s_addr (helper_reduce_update_s_addr), - .u_addr (helper_reduce_update_u_addr), - .v_addr (helper_reduce_update_v_addr), - - .s_wren (helper_reduce_update_s_wren), - - .s_dout (helper_reduce_update_s_data), - - .u_din (buf_u_rd_dout), - .v_din (buf_v_rd_dout) - ); - - - // - // Helper Module - Copying - // - wire [BUFFER_ADDR_BITS-1:0] helper_copy_s_addr; - - modinv_helper_copy # - ( - .OPERAND_NUM_WORDS (OPERAND_NUM_WORDS), - .OPERAND_ADDR_BITS (OPERAND_ADDR_BITS), - - .BUFFER_NUM_WORDS (BUFFER_NUM_WORDS), - .BUFFER_ADDR_BITS (BUFFER_ADDR_BITS) - ) - helper_copy - ( - .clk (clk), - .rst_n (rst_n), - - .ena (helper_copy_ena), - .rdy (helper_copy_rdy), - - .s_addr (helper_copy_s_addr), - .a1_addr (a1_addr), - - .s_din (buf_s_rd_dout), - - .a1_dout (a1_dout), - - .a1_wren (a1_wren) - ); - - - // - // Round Counter - // - reg [ROUND_COUNTER_BITS-1:0] round_counter; - wire [ROUND_COUNTER_BITS-1:0] round_counter_max = LOOP_NUM_ROUNDS - 1; - wire [ROUND_COUNTER_BITS-1:0] round_counter_zero = {ROUND_COUNTER_BITS{1'b0}}; - wire [ROUND_COUNTER_BITS-1:0] round_counter_next = - (round_counter < round_counter_max) ? round_counter + 1'b1 : round_counter_zero; - - - // - // FSM - // - localparam FSM_STATE_IDLE = 4'd0; - - localparam FSM_STATE_INIT = 4'd1; - - localparam FSM_STATE_INVERT_PRECALC = 4'd11; - localparam FSM_STATE_INVERT_COMPARE = 4'd12; - localparam FSM_STATE_INVERT_UPDATE = 4'd13; - - localparam FSM_STATE_REDUCE_PRECALC = 4'd14; - localparam FSM_STATE_REDUCE_UPDATE = 4'd15; - - localparam FSM_STATE_COPY = 4'd2; - - localparam FSM_STATE_DONE = 4'd3; - - reg [3:0] fsm_state = FSM_STATE_IDLE; - reg [3:0] fsm_state_dly = FSM_STATE_IDLE; - - wire fsm_state_new = (fsm_state != fsm_state_dly); - - wire [3:0] fsm_state_invert_next = (round_counter < round_counter_max) ? - FSM_STATE_INVERT_PRECALC : FSM_STATE_REDUCE_PRECALC; - - wire [3:0] fsm_state_reduce_next = (round_counter < round_counter_max) ? - FSM_STATE_REDUCE_PRECALC : FSM_STATE_COPY; - - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) fsm_state <= FSM_STATE_IDLE; - else case (fsm_state) - FSM_STATE_IDLE: fsm_state <= ena ? FSM_STATE_INIT : FSM_STATE_IDLE; - FSM_STATE_INIT: fsm_state <= helper_init_done ? FSM_STATE_INVERT_PRECALC : FSM_STATE_INIT; - FSM_STATE_INVERT_PRECALC: fsm_state <= helper_invert_precalc_done ? FSM_STATE_INVERT_COMPARE : FSM_STATE_INVERT_PRECALC; - FSM_STATE_INVERT_COMPARE: fsm_state <= helper_invert_compare_done ? FSM_STATE_INVERT_UPDATE : FSM_STATE_INVERT_COMPARE; - FSM_STATE_INVERT_UPDATE: fsm_state <= helper_invert_update_done ? fsm_state_invert_next : FSM_STATE_INVERT_UPDATE; - FSM_STATE_REDUCE_PRECALC: fsm_state <= helper_reduce_precalc_done ? FSM_STATE_REDUCE_UPDATE : FSM_STATE_REDUCE_PRECALC; - FSM_STATE_REDUCE_UPDATE: fsm_state <= helper_reduce_update_done ? fsm_state_reduce_next : FSM_STATE_REDUCE_UPDATE; - FSM_STATE_COPY: fsm_state <= helper_copy_done ? FSM_STATE_DONE : FSM_STATE_COPY; - FSM_STATE_DONE: fsm_state <= FSM_STATE_IDLE; - default: fsm_state <= FSM_STATE_IDLE; - endcase - - always @(posedge clk or negedge rst_n) - // - if (rst_n == 1'b0) fsm_state_dly <= FSM_STATE_IDLE; - else fsm_state_dly <= fsm_state; - - - assign helper_init_ena = (fsm_state == FSM_STATE_INIT) && fsm_state_new; - assign helper_invert_precalc_ena = (fsm_state == FSM_STATE_INVERT_PRECALC) && fsm_state_new; - assign helper_invert_compare_ena = (fsm_state == FSM_STATE_INVERT_COMPARE) && fsm_state_new; - assign helper_invert_update_ena = (fsm_state == FSM_STATE_INVERT_UPDATE) && fsm_state_new; - assign helper_reduce_precalc_ena = (fsm_state == FSM_STATE_REDUCE_PRECALC) && fsm_state_new; - assign helper_reduce_update_ena = (fsm_state == FSM_STATE_REDUCE_UPDATE) && fsm_state_new; - assign helper_copy_ena = (fsm_state == FSM_STATE_COPY) && fsm_state_new; - - - // - // Counter Increment - // - always @(posedge clk) begin - // - if ((fsm_state == FSM_STATE_INIT) && helper_init_done) - round_counter <= round_counter_zero; - // - if ((fsm_state == FSM_STATE_INVERT_UPDATE) && helper_invert_update_done) - round_counter <= round_counter_next; - // - if ((fsm_state == FSM_STATE_REDUCE_UPDATE) && helper_reduce_update_done) - round_counter <= round_counter_next; - // - end - - - // - // Q Address Selector - // - always @(*) begin - // - case (fsm_state) - FSM_STATE_INIT: q_addr = helper_init_q_addr; - FSM_STATE_REDUCE_PRECALC: q_addr = helper_reduce_precalc_q_addr; - default: q_addr = {OPERAND_ADDR_BITS{1'bX}}; - endcase - // - end - - - // - // Buffer Address Selector - // - always @(*) begin - // - // Write Ports - // - case (fsm_state) - FSM_STATE_INIT: buf_r_wr_addr = helper_init_r_addr; - FSM_STATE_INVERT_UPDATE: buf_r_wr_addr = helper_invert_update_r_addr; - FSM_STATE_REDUCE_PRECALC: buf_r_wr_addr = helper_reduce_precalc_r_addr; - default: buf_r_wr_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_s_wr_addr = helper_init_s_addr; - FSM_STATE_INVERT_UPDATE: buf_s_wr_addr = helper_invert_update_s_addr; - FSM_STATE_REDUCE_UPDATE: buf_s_wr_addr = helper_reduce_update_s_addr; - default: buf_s_wr_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_u_wr_addr = helper_init_u_addr; - FSM_STATE_INVERT_UPDATE: buf_u_wr_addr = helper_invert_update_u_addr; - FSM_STATE_REDUCE_PRECALC: buf_u_wr_addr = helper_reduce_precalc_u_addr; - default: buf_u_wr_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_v_wr_addr = helper_init_v_addr; - FSM_STATE_INVERT_UPDATE: buf_v_wr_addr = helper_invert_update_v_addr; - FSM_STATE_REDUCE_PRECALC: buf_v_wr_addr = helper_reduce_precalc_v_addr; - default: buf_v_wr_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - // Read Ports - // - case (fsm_state) - FSM_STATE_INVERT_PRECALC: buf_r_rd_addr = helper_invert_precalc_r_addr; - default: buf_r_rd_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INVERT_PRECALC: buf_s_rd_addr = helper_invert_precalc_s_addr; - FSM_STATE_REDUCE_PRECALC: buf_s_rd_addr = helper_reduce_precalc_s_addr; - FSM_STATE_COPY: buf_s_rd_addr = helper_copy_s_addr; - default: buf_s_rd_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INVERT_PRECALC: buf_u_rd_addr = helper_invert_precalc_u_addr; - FSM_STATE_INVERT_COMPARE: buf_u_rd_addr = helper_invert_compare_u_addr; - FSM_STATE_REDUCE_UPDATE: buf_u_rd_addr = helper_reduce_update_u_addr; - default: buf_u_rd_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INVERT_PRECALC: buf_v_rd_addr = helper_invert_precalc_v_addr; - FSM_STATE_INVERT_COMPARE: buf_v_rd_addr = helper_invert_compare_v_addr; - FSM_STATE_REDUCE_UPDATE: buf_v_rd_addr = helper_reduce_update_v_addr; - default: buf_v_rd_addr = {BUFFER_ADDR_BITS{1'bX}}; - endcase - // - end - - - // - // Buffer Write Enable Logic - // - always @(*) begin - // - // Write Ports - // - case (fsm_state) - FSM_STATE_INIT: buf_r_wr_en = helper_init_r_wren; - FSM_STATE_INVERT_UPDATE: buf_r_wr_en = helper_invert_update_r_wren; - FSM_STATE_REDUCE_PRECALC: buf_r_wr_en = helper_reduce_precalc_r_wren; - default: buf_r_wr_en = 1'b0; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_s_wr_en = helper_init_s_wren; - FSM_STATE_INVERT_UPDATE: buf_s_wr_en = helper_invert_update_s_wren; - FSM_STATE_REDUCE_UPDATE: buf_s_wr_en = helper_reduce_update_s_wren; - default: buf_s_wr_en = 1'b0; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_u_wr_en = helper_init_u_wren; - FSM_STATE_INVERT_UPDATE: buf_u_wr_en = helper_invert_update_u_wren; - FSM_STATE_REDUCE_PRECALC: buf_u_wr_en = helper_reduce_precalc_u_wren; - default: buf_u_wr_en = 1'b0; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_v_wr_en = helper_init_v_wren; - FSM_STATE_INVERT_UPDATE: buf_v_wr_en = helper_invert_update_v_wren; - FSM_STATE_REDUCE_PRECALC: buf_v_wr_en = helper_reduce_precalc_v_wren; - default: buf_v_wr_en = 1'b0; - endcase - // - end - - - // - // Buffer Write Data Selector - // - always @(*) begin - // - case (fsm_state) - FSM_STATE_INIT: buf_r_wr_din = helper_init_r_data; - FSM_STATE_INVERT_UPDATE: buf_r_wr_din = helper_invert_update_r_data; - FSM_STATE_REDUCE_PRECALC: buf_r_wr_din = helper_reduce_precalc_r_data; - default: buf_r_wr_din = {32{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_s_wr_din = helper_init_s_data; - FSM_STATE_INVERT_UPDATE: buf_s_wr_din = helper_invert_update_s_data; - FSM_STATE_REDUCE_UPDATE: buf_s_wr_din = helper_reduce_update_s_data; - default: buf_s_wr_din = {32{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_u_wr_din = helper_init_u_data; - FSM_STATE_INVERT_UPDATE: buf_u_wr_din = helper_invert_update_u_data; - FSM_STATE_REDUCE_PRECALC: buf_u_wr_din = helper_reduce_precalc_u_data; - default: buf_u_wr_din = {32{1'bX}}; - endcase - // - case (fsm_state) - FSM_STATE_INIT: buf_v_wr_din = helper_init_v_data; - FSM_STATE_INVERT_UPDATE: buf_v_wr_din = helper_invert_update_v_data; - FSM_STATE_REDUCE_PRECALC: buf_v_wr_din = helper_reduce_precalc_v_data; - default: buf_v_wr_din = {32{1'bX}}; - endcase - // - end - - - // - // Ready 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 */ - if (rdy && ena) rdy_reg <= 1'b0; - - /* set */ - if (!rdy && (fsm_state == FSM_STATE_DONE)) rdy_reg <= 1'b1; - - end - - - // - // Store Redundant Power of 2 (K) - // - always @(posedge clk) - // - if (helper_init_ena) - k <= {K_NUM_BITS{1'b0}}; - else begin - - if (helper_invert_update_ena && !flag_invert_v_eq_1) - k <= k + 1'b1; - - if (helper_reduce_update_ena && (k != {K_NUM_BITS{1'b0}})) - k <= k - 1'b1; - - end - -endmodule - - -//------------------------------------------------------------------------------ -// End-of-File -//------------------------------------------------------------------------------ -- cgit v1.2.3