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[/] [xilinx_virtex_fp_library/] [trunk/] [DualPathFPAdder/] [FarPath.v] - Rev 10
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`timescale 1ns / 1ps ////////////////////////////////////////////////////////////////////////////////// // Company: // Engineer: // // Create Date: 00:31:57 11/19/2013 // Design Name: // Module Name: FarPath // Project Name: // Target Devices: // Tool versions: // Description: A ± B when |Ea-Eb| >= 2 // // Dependencies: // // Revision: // Revision 0.01 - File Created // Additional Comments: // ////////////////////////////////////////////////////////////////////////////////// module FarPath #( parameter size_in_mantissa = 24, //1.M parameter size_out_mantissa = 24, parameter size_exponent = 8, parameter pipeline = 0, parameter pipeline_pos = 0, // 8 bits parameter size_counter = 5, //log2(size_in_mantissa) + 1 = 5) parameter double_size_in_mantissa = size_in_mantissa + size_in_mantissa) ( input [size_in_mantissa - 1 : 0] m_a_number, input [size_in_mantissa - 1 : 0] m_b_number, input eff_op, input [size_exponent : 0] exp_inter, input [size_exponent - 1 : 0] exp_difference, output[size_out_mantissa- 1 : 0] resulted_m_o, output[size_exponent - 1 : 0] resulted_e_o); wire [size_exponent- 1 : 0] adjust_mantissa; wire [size_exponent- 1 : 0] unadjusted_exponent; wire [double_size_in_mantissa:0] normalized_mantissa; wire [size_in_mantissa-1: 0] shifted_m_b; wire [size_in_mantissa+1: 0] adder_mantissa; wire [size_in_mantissa : 0] unnormalized_mantissa; wire [size_in_mantissa - 1 : 0] initial_rounding_bits, inter_rounding_bits; wire dummy_bit; //shift m_b_number shifter #( .INPUT_SIZE(size_in_mantissa), .SHIFT_SIZE(size_exponent), .OUTPUT_SIZE(double_size_in_mantissa), .DIRECTION(1'b0), //0=right, 1=left .PIPELINE(pipeline), .POSITION(pipeline_pos)) m_b_shifter_instance( .a(m_b_number),//mantissa .arith(1'b0),//logical shift .shft(exp_difference), .shifted_a({shifted_m_b, initial_rounding_bits})); //compute unnormalized_mantissa assign adder_mantissa = (eff_op)? ({1'b0, m_a_number} - {1'b0, shifted_m_b}) : ({1'b0, m_a_number} + {1'b0, shifted_m_b}); assign {unnormalized_mantissa, inter_rounding_bits} = (adder_mantissa[size_in_mantissa + 1])? ({~adder_mantissa[size_in_mantissa : 0], ~initial_rounding_bits}) : ({adder_mantissa[size_in_mantissa : 0], initial_rounding_bits}); assign adjust_mantissa = unnormalized_mantissa[size_in_mantissa]? 2'd0 : unnormalized_mantissa[size_in_mantissa-1]? 2'd1 : 2'd2; //compute shifting over unnormalized_mantissa shifter #( .INPUT_SIZE(double_size_in_mantissa+1), .SHIFT_SIZE(size_exponent), .OUTPUT_SIZE(double_size_in_mantissa+2), .DIRECTION(1'b1), .PIPELINE(pipeline), .POSITION(pipeline_pos)) unnormalized_no_shifter_instance(.a({unnormalized_mantissa, inter_rounding_bits}), .arith(1'b0), .shft(adjust_mantissa), .shifted_a({normalized_mantissa, dummy_bit})); //instantiate rounding_component rounding #( .SIZE_MOST_S_MANTISSA(size_out_mantissa), .SIZE_LEAST_S_MANTISSA(size_out_mantissa + 2'd1)) rounding_instance( .unrounded_mantissa(normalized_mantissa[double_size_in_mantissa : double_size_in_mantissa - size_out_mantissa + 1]), .dummy_bits(normalized_mantissa[double_size_in_mantissa - size_out_mantissa: 0]), .rounded_mantissa(resulted_m_o)); assign unadjusted_exponent = exp_inter - adjust_mantissa; assign resulted_e_o = unadjusted_exponent + 1'b1; endmodule
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