// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: sparc_exu_alulogic.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_exu_alulogic // Description: This block implements and, or, xor, xnor, nand, nor // and pass_rs2_data. And, or, Xor and pass are muxed together // and then xored with an inversion signal to create // xnor, nand and nor. Both inputs are buffered before being // used and the rs2_data signal is buffered again before going // to the mux. */ module sparc_exu_alulogic (/*AUTOARG*/ // Outputs logic_out, // Inputs rs1_data, rs2_data, isand, isor, isxor, pass_rs2_data, inv_logic, ifu_exu_sethi_inst_e ); input [63:0] rs1_data; // 1st input operand input [63:0] rs2_data; // 2nd input operand input isand; input isor; input isxor; input pass_rs2_data; input inv_logic; input ifu_exu_sethi_inst_e; // zero out top half of rs2 on mov output [63:0] logic_out; // output of logic block wire [63:0] rs1_data_bf1; // buffered rs1_data wire [63:0] rs2_data_bf1; // buffered rs2_data wire [63:0] mov_data; wire [63:0] result_and; // rs1_data & rs2_data wire [63:0] result_or; // rs1_data | rs2_data wire [63:0] result_xor; // rs1_data ^ rs2_data wire [63:0] rs2_xor_invert; // output of mux between various results // mux between various results mux4ds #(64) logic_mux(.dout(logic_out[63:0]), .in0(result_and[63:0]), .in1(result_or[63:0]), .in2(result_xor[63:0]), .in3(mov_data[63:0]), .sel0(isand), .sel1(isor), .sel2(isxor), .sel3(pass_rs2_data)); // buffer inputs dp_buffer #(64) rs1_data_buf(.dout(rs1_data_bf1[63:0]), .in(rs1_data[63:0])); dp_buffer #(64) rs2_data_buf(.dout(rs2_data_bf1[63:0]), .in(rs2_data[63:0])); // zero out top of rs2 for sethi_inst assign mov_data[63:32] = rs2_data_bf1[63:32] & {32{~ifu_exu_sethi_inst_e}}; dp_buffer #(32) rs2_data_buf2(.dout(mov_data[31:0]), .in(rs2_data_bf1[31:0])); // invert input2 for andn, orn, xnor assign rs2_xor_invert[63:0] = rs2_data_bf1[63:0] ^ {64{inv_logic}}; // do boolean ops assign result_and = rs1_data_bf1 & rs2_xor_invert; assign result_or = rs1_data_bf1 | rs2_xor_invert; assign result_xor = rs1_data_bf1 ^ rs2_xor_invert; endmodule