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[/] [sparc64soc/] [trunk/] [T1-CPU/] [ffu/] [sparc_ffu_vis.v] - Rev 8
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: sparc_ffu_vis.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: sparc_ffu_vis // Description: This is the ffu VIS blk. // It implements FALIGN, partitioned add and logicals. */ module sparc_ffu_vis(/*AUTOARG*/ // Outputs vis_dp_rd_data, // Inputs dp_vis_rs1_data, dp_vis_rs2_data, ctl_vis_sel_add, ctl_vis_sel_log, ctl_vis_sel_align, ctl_vis_add32, ctl_vis_subtract, ctl_vis_cin, ctl_vis_align0, ctl_vis_align2, ctl_vis_align4, ctl_vis_align6, ctl_vis_align_odd, ctl_vis_log_sel_pass, ctl_vis_log_sel_nand, ctl_vis_log_sel_nor, ctl_vis_log_sel_xor, ctl_vis_log_invert_rs1, ctl_vis_log_invert_rs2, ctl_vis_log_constant, ctl_vis_log_pass_const, ctl_vis_log_pass_rs1, ctl_vis_log_pass_rs2 ); input [63:0] dp_vis_rs1_data; input [63:0] dp_vis_rs2_data; input ctl_vis_sel_add; input ctl_vis_sel_log; input ctl_vis_sel_align; input ctl_vis_add32; input ctl_vis_subtract; input ctl_vis_cin; input ctl_vis_align0; input ctl_vis_align2; input ctl_vis_align4; input ctl_vis_align6; input ctl_vis_align_odd; input ctl_vis_log_sel_pass; input ctl_vis_log_sel_nand; input ctl_vis_log_sel_nor; input ctl_vis_log_sel_xor; input ctl_vis_log_invert_rs1; input ctl_vis_log_invert_rs2; input ctl_vis_log_constant; input ctl_vis_log_pass_const; input ctl_vis_log_pass_rs1; input ctl_vis_log_pass_rs2; output [63:0] vis_dp_rd_data; wire [71:0] align_data1; wire [63:0] align_rs1; wire [63:8] align_rs2; wire [63:0] add_out; wire [63:0] log_out; wire [63:0] align_out; wire [63:0] add_in_rs1; wire [63:0] add_in_rs2; wire [63:0] logic_nor; wire [63:0] logic_pass; wire [63:0] logic_xor; wire [63:0] logic_nand; wire [63:0] logic_rs1; wire [63:0] logic_rs2; ///////////////////////////////////////////////////////////////// // Logic for partitioned addition. //---------------------------------- // RS1 is normal RS1 data, RS2 is inverted by subtraction signal. ///////////////////////////////////////////////////////////////// assign add_in_rs1[63:0] = dp_vis_rs1_data[63:0]; assign add_in_rs2[63:0] = dp_vis_rs2_data[63:0] ^ {64{ctl_vis_subtract}}; sparc_ffu_part_add32 part_adder_hi(.z(add_out[63:32]), .add32(ctl_vis_add32), .a(add_in_rs1[63:32]), .b(add_in_rs2[63:32]), .cin(ctl_vis_cin)); sparc_ffu_part_add32 part_adder_lo(.z(add_out[31:0]), .add32(ctl_vis_add32), .a(add_in_rs1[31:0]), .b(add_in_rs2[31:0]), .cin(ctl_vis_cin)); /////////////////////////////////////////////////////////////////////////// // Datapath for FALIGNDATA //--------------------------------------------------------------- // FALIGNDATA concatenates rs1 and rs2 and shifts them by byte to create // an 8 byte value. The first mux creates a 72 bit value and the // 2nd mux picks 64 bits out of these for the output. /////////////////////////////////////////////////////////////////////////// dp_buffer #(64) align_rs1_buf(.dout(align_rs1[63:0]), .in(dp_vis_rs1_data[63:0])); dp_buffer #(56) align_rs2_buf(.dout(align_rs2[63:8]), .in(dp_vis_rs2_data[63:8])); mux4ds #(72) falign_mux1(.dout(align_data1[71:0]), .in0({align_rs1[63:0], align_rs2[63:56]}), .in1({align_rs1[47:0], align_rs2[63:40]}), .in2({align_rs1[31:0], align_rs2[63:24]}), .in3({align_rs1[15:0], align_rs2[63:8]}), .sel0(ctl_vis_align0), .sel1(ctl_vis_align2), .sel2(ctl_vis_align4), .sel3(ctl_vis_align6)); dp_mux2es #(64) falign_mux2(.dout(align_out[63:0]), .in0(align_data1[71:8]), .in1(align_data1[63:0]), .sel(ctl_vis_align_odd)); /////////////////////////////////////////////////////////////////////////// // Datapath for VIS logicals //----------------------------------------------------------------------- // VIS logicals perform 3 fundamental ops: NAND, NOR and XOR plus inverted // versions of the inputs to create the other versions. These 3 outputs are // muxed with a choice of 1, 0, rs1 or rs2. /////////////////////////////////////////////////////////////////////////// // create inverted versions of data if desired assign logic_rs1[63:0] = dp_vis_rs1_data[63:0] ^ {64{ctl_vis_log_invert_rs1}}; assign logic_rs2[63:0] = dp_vis_rs2_data[63:0] ^ {64{ctl_vis_log_invert_rs2}}; // 3 basic logical operations assign logic_nor[63:0] = ~(logic_rs1[63:0] | logic_rs2[63:0]); assign logic_nand[63:0] = ~(logic_rs1[63:0] & logic_rs2[63:0]); assign logic_xor[63:0] = (logic_rs1[63:0] ^ logic_rs2[63:0]); // mux for pass through data mux3ds #(64) pass_mux(.dout(logic_pass[63:0]), .in0({64{ctl_vis_log_constant}}), .in1(logic_rs1[63:0]), .in2(logic_rs2[63:0]), .sel0(ctl_vis_log_pass_const), .sel1(ctl_vis_log_pass_rs1), .sel2(ctl_vis_log_pass_rs2)); // pick between logic outputs mux4ds #(64) logic_mux(.dout(log_out[63:0]), .in0(logic_nor[63:0]), .in1(logic_nand[63:0]), .in2(logic_xor[63:0]), .in3(logic_pass[63:0]), .sel0(ctl_vis_log_sel_nor), .sel1(ctl_vis_log_sel_nand), .sel2(ctl_vis_log_sel_xor), .sel3(ctl_vis_log_sel_pass)); ////////////////////////////////////////////////////////// // output mux ////////////////////////////////////////////////////////// mux3ds #(64) output_mux(.dout(vis_dp_rd_data[63:0]), .in0(add_out[63:0]), .in1(log_out[63:0]), .in2(align_out[63:0]), .sel0(ctl_vis_sel_add), .sel1(ctl_vis_sel_log), .sel2(ctl_vis_sel_align)); endmodule // sparc_ffu_vis
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