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[/] [sparc64soc/] [trunk/] [T1-common/] [srams/] [bw_r_frf.v] - Rev 2
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: bw_r_frf.v // Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES. // // The above named program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License version 2 as published by the Free Software Foundation. // // The above named program is distributed in the hope that it will be // useful, but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this work; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. // // ========== Copyright Header End ============================================ //////////////////////////////////////////////////////////////////////// /* // Module Name: bw_r_frf // Description: This is the floating point register file. It has one R/W port that is // 78 bits (64 bits data, 14 bits ecc) wide. */ //FPGA_SYN enables all FPGA related modifications `ifdef FPGA_SYN `define FPGA_SYN_FRF `endif module bw_r_frf (/*AUTOARG*/ // Outputs so, frf_dp_data, // Inputs rclk, si, se, sehold, rst_tri_en, ctl_frf_wen, ctl_frf_ren, dp_frf_data, ctl_frf_addr ) ; input rclk; input si; input se; input sehold; input rst_tri_en; input [1:0] ctl_frf_wen; input ctl_frf_ren; input [77:0] dp_frf_data; input [6:0] ctl_frf_addr; output so; output [77:0] frf_dp_data; wire [7:0] regfile_index; //XST WA CR436004 (* keep = "yes" *) wire [7:0] regfile_index_low; (* keep = "yes" *) wire [7:0] regfile_index_high; // `ifdef FPGA_SYN_FRF reg [38:0] regfile_high [127:0]; reg [38:0] regfile_low [127:0]; `else reg [38:0] regfile [255:0]; `endif reg rst_tri_en_negedge; wire [77:0] read_data; wire ren_d1; wire [6:0] addr_d1; wire [1:0] wen_d1; wire [77:0] write_data_d1; wire [77:0] sehold_write_data; wire [9:0] sehold_cntl_data; wire [9:0] cntl_scan_data; wire [38:0] write_scan_data_hi; wire [38:0] write_scan_data_lo; wire [38:0] read_scan_data_hi; wire [38:0] read_scan_data_lo; wire real_se; assign real_se = se & ~sehold; // This is for sas comparisons assign regfile_index[7:0] = {ctl_frf_addr[6:0], 1'b0}; assign regfile_index_low[7:0] = {addr_d1[6:0], 1'b0}; assign regfile_index_high[7:0] = {addr_d1[6:0], 1'b1}; assign sehold_write_data[77:0] = (sehold)? write_data_d1[77:0]: dp_frf_data[77:0]; assign sehold_cntl_data[9:0] = (sehold)? {addr_d1[6:0],wen_d1[1:0], ren_d1}: {ctl_frf_addr[6:0],ctl_frf_wen[1:0],ctl_frf_ren}; // All inputs go through flop dff_s #(39) datain_dff1(.din(sehold_write_data[77:39]), .clk(rclk), .q(write_data_d1[77:39]), .se(real_se), .si({cntl_scan_data[0],write_scan_data_lo[38:1]}), .so(write_scan_data_hi[38:0])); dff_s #(39) datain_dff2(.din(sehold_write_data[38:0]), .clk(rclk), .q(write_data_d1[38:0]), .se(real_se), .si(write_scan_data_hi[38:0]), .so(write_scan_data_lo[38:0])); dff_s #(10) controlin_dff(.din(sehold_cntl_data[9:0]), .q({addr_d1[6:0],wen_d1[1:0],ren_d1}), .clk(rclk), .se(real_se), .si({si,cntl_scan_data[9:1]}), .so(cntl_scan_data[9:0])); // Read logic `ifdef FPGA_SYN_FRF assign read_data[77:0] = (~ren_d1)? 78'b0: (wen_d1[1]|wen_d1[0])? {78{1'bx}}: {regfile_high[regfile_index_high[7:1]],regfile_low[regfile_index_low[7:1]]}; `else assign read_data[77:0] = (~ren_d1)? 78'b0: (wen_d1[1]|wen_d1[0])? {78{1'bx}}: {regfile[regfile_index_high],regfile[regfile_index_low]}; `endif dff_s #(39) dataout_dff1(.din(read_data[77:39]), .clk(rclk), .q(frf_dp_data[77:39]), .se(real_se), .si(read_scan_data_lo[38:0]), .so(read_scan_data_hi[38:0])); dff_s #(39) dataout_dff2(.din(read_data[38:0]), .clk(rclk), .q(frf_dp_data[38:0]), .se(real_se), .si({read_scan_data_hi[37:0],write_scan_data_lo[0]}), .so(read_scan_data_lo[38:0])); assign so = read_scan_data_hi[38]; always @ (posedge rclk) begin // Write port // write is gated by rst_tri_en `ifdef FPGA_SYN_FRF if (wen_d1[0] & ~ren_d1 & ~rst_tri_en_negedge) begin regfile_low[regfile_index_low[7:1]] <= write_data_d1[38:0]; end if (wen_d1[1] & ~ren_d1 & ~rst_tri_en_negedge) begin regfile_high[regfile_index_high[7:1]] <= write_data_d1[77:39]; end `else if (wen_d1[0] & ~ren_d1 & ~rst_tri_en_negedge) begin regfile[regfile_index_low] <= write_data_d1[38:0]; end if (wen_d1[1] & ~ren_d1 & ~rst_tri_en_negedge) begin regfile[regfile_index_high] <= write_data_d1[77:39]; end `endif end always @ (negedge rclk) begin // latch rst_tri_en rst_tri_en_negedge <= rst_tri_en; end endmodule // sparc_ffu_frf