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[/] [sparc64soc/] [trunk/] [T1-FPU/] [fpu_out_dp.v] - Rev 2
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: fpu_out_dp.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 ============================================ /////////////////////////////////////////////////////////////////////////////// // // FPU output datapath. // /////////////////////////////////////////////////////////////////////////////// module fpu_out_dp ( dest_rdy, req_thread, div_exc_out, d8stg_fdivd, d8stg_fdivs, div_sign_out, div_exp_out, div_frac_out, mul_exc_out, m6stg_fmul_dbl_dst, m6stg_fmuls, mul_sign_out, mul_exp_out, mul_frac_out, add_exc_out, a6stg_fcmpop, add_cc_out, add_fcc_out, a6stg_dbl_dst, a6stg_sng_dst, a6stg_long_dst, a6stg_int_dst, add_sign_out, add_exp_out, add_frac_out, rclk, fp_cpx_data_ca, se, si, so ); input [2:0] dest_rdy; // pipe with result request this cycle input [1:0] req_thread; // thread ID of result req this cycle input [4:0] div_exc_out; // divide pipe result- exception flags input d8stg_fdivd; // divide double- divide stage 8 input d8stg_fdivs; // divide single- divide stage 8 input div_sign_out; // divide sign output input [10:0] div_exp_out; // divide exponent output input [51:0] div_frac_out; // divide fraction output input [4:0] mul_exc_out; // multiply pipe result- exception flags input m6stg_fmul_dbl_dst; // double precision multiply result input m6stg_fmuls; // fmuls- multiply 6 stage input mul_sign_out; // multiply sign output input [10:0] mul_exp_out; // multiply exponent output input [51:0] mul_frac_out; // multiply fraction output input [4:0] add_exc_out; // add pipe result- exception flags input a6stg_fcmpop; // compare- add 6 stage input [1:0] add_cc_out; // add pipe result- condition input [1:0] add_fcc_out; // add pipe input fcc passed through input a6stg_dbl_dst; // float double result- add 6 stage input a6stg_sng_dst; // float single result- add 6 stage input a6stg_long_dst; // 64bit integer result- add 6 stage input a6stg_int_dst; // 32bit integer result- add 6 stage input add_sign_out; // add sign output input [10:0] add_exp_out; // add exponent output input [63:0] add_frac_out; // add fraction output input rclk; // global clock output [144:0] fp_cpx_data_ca; // FPU result to CPX input se; // scan_enable input si; // scan in output so; // scan out wire [63:0] add_out; wire [63:0] mul_out; wire [63:0] div_out; wire [7:0] fp_cpx_data_ca_84_77_in; wire [76:0] fp_cpx_data_ca_76_0_in; wire [7:0] fp_cpx_data_ca_84_77; wire [76:0] fp_cpx_data_ca_76_0; wire [144:0] fp_cpx_data_ca; wire se_l; assign se_l = ~se; clken_buf ckbuf_out_dp ( .clk(clk), .rclk(rclk), .enb_l(1'b0), .tmb_l(se_l) ); /////////////////////////////////////////////////////////////////////////////// // // Add pipe output. // /////////////////////////////////////////////////////////////////////////////// assign add_out[63:0]= ({64{a6stg_dbl_dst}} & {add_sign_out, add_exp_out[10:0], add_frac_out[62:11]}) | ({64{a6stg_sng_dst}} & {add_sign_out, add_exp_out[7:0], add_frac_out[62:40], 32'b0}) | ({64{a6stg_long_dst}} & add_frac_out[63:0]) | ({64{a6stg_int_dst}} & {add_frac_out[63:32], 32'b0}); /////////////////////////////////////////////////////////////////////////////// // // Multiply output. // /////////////////////////////////////////////////////////////////////////////// assign mul_out[63:0]= ({64{m6stg_fmul_dbl_dst}} & {mul_sign_out, mul_exp_out[10:0], mul_frac_out[51:0]}) | ({64{m6stg_fmuls}} & {mul_sign_out, mul_exp_out[7:0], mul_frac_out[51:29], 32'b0}); /////////////////////////////////////////////////////////////////////////////// // // Divide output. // /////////////////////////////////////////////////////////////////////////////// assign div_out[63:0]= ({64{d8stg_fdivd}} & {div_sign_out, div_exp_out[10:0], div_frac_out[51:0]}) | ({64{d8stg_fdivs}} & {div_sign_out, div_exp_out[7:0], div_frac_out[51:29], 32'b0}); /////////////////////////////////////////////////////////////////////////////// // // Choose the output data. // // Input to the CPX data (CA) stage. // /////////////////////////////////////////////////////////////////////////////// assign fp_cpx_data_ca_84_77_in[7:0]= ({8{(|dest_rdy)}} & {1'b1, 4'b1000, 1'b0, req_thread[1:0]}); assign fp_cpx_data_ca_76_0_in[76:0]= ({77{dest_rdy[2]}} & {div_exc_out[4:0], 8'b0, div_out[63:0]}) | ({77{dest_rdy[1]}} & {mul_exc_out[4:0], 8'b0, mul_out[63:0]}) | ({77{dest_rdy[0]}} & {add_exc_out[4:0], 2'b0, a6stg_fcmpop, add_cc_out[1:0], add_fcc_out[1:0], 1'b0, add_out[63:0]}); dff_s #(8) i_fp_cpx_data_ca_84_77 ( .din (fp_cpx_data_ca_84_77_in[7:0]), .clk (clk), .q (fp_cpx_data_ca_84_77[7:0]), .se (se), .si (), .so () ); dff_s #(77) i_fp_cpx_data_ca_76_0 ( .din (fp_cpx_data_ca_76_0_in[76:0]), .clk (clk), .q (fp_cpx_data_ca_76_0[76:0]), .se (se), .si (), .so () ); assign fp_cpx_data_ca[144:0]= {fp_cpx_data_ca_84_77[7:3], 3'b0, fp_cpx_data_ca_84_77[2:0], 57'b0, fp_cpx_data_ca_76_0[76:0]}; endmodule