cvw/wally-pipelined/src/fpu/convert_inputs.sv

// This module takes as inputs two operands (op1 and op2) 
// the operation type (op_type) and the result precision (P). 
// Based on the operation and precision , it conditionally
// converts single precision values to double precision values
// and modifies the sign of op1. The converted operands are Float1
// and Float2.

module convert_inputs(
   input [63:0]  op1,      // 1st input operand (A)
   input [63:0]  op2,      // 2nd input operand (B)
   input [2:0]   op_type,  // Function opcode
   input 	     P,        // Result Precision (0 for double, 1 for single)

   output [63:0] Float1,	// Converted 1st input operand
   output [63:0] Float2	   // Converted 2nd input operand   
);

   wire 	 conv_SP;   // Convert from SP to DP
   wire 	 Zexp1;		// One if the exponent of op1 is zero
   wire 	 Zexp2;		// One if the exponent of op2 is zero
   wire 	 Oexp1;		// One if the exponent of op1 is all ones
   wire 	 Oexp2;		// One if the exponent of op2 is all ones

   // Convert from single precision to double precision if (op_type is 11X
   // and P is 0) or (op_type is not 11X and P is one). 
   assign conv_SP = ~P;

   // Test if the input exponent is zero, because if it is then the
   // exponent of the converted number should be zero. 
   assign Zexp1 = ~(|op1[30:23]);
   assign Zexp2 = ~(|op2[30:23]);
   assign Oexp1 =  (&op1[30:23]);
   assign Oexp2 =  (&op2[30:23]);

   // Conditionally convert op1. Lower 29 bits are zero for single precision.
   assign Float1[62:29] = conv_SP ? {op1[30], {3{(~op1[30]&~Zexp1)|Oexp1}}, op1[29:0]}
			  : op1[62:29];
   assign Float1[28:0] = op1[28:0] & {29{~conv_SP}};

   // Conditionally convert op2. Lower 29 bits are zero for single precision. 
   assign Float2[62:29] = conv_SP ? {op2[30], {3{(~op2[30]&~Zexp2)|Oexp2}}, op2[29:0]}
			  : op2[62:29];
   assign Float2[28:0] = op2[28:0] & {29{~conv_SP}};

   // Set the sign of Float1 based on its original sign and if the operation
   // is negation (op_type = 101) or absolute value (op_type = 100)

   assign Float1[63]  = conv_SP ? op1[31] : op1[63];
   assign Float2[63]  = conv_SP ? op2[31] : op2[63];

endmodule // convert_inputs
Added missing files in FPU 2021-04-04 18:09:13 +00:00			`// This module takes as inputs two operands (op1 and op2)`
			`// the operation type (op_type) and the result precision (P).`
			`// Based on the operation and precision , it conditionally`
			`// converts single precision values to double precision values`
			`// and modifies the sign of op1. The converted operands are Float1`
			`// and Float2.`

fpu cleanup 2021-07-24 18:59:57 +00:00			`module convert_inputs(`
			`input [63:0] op1, // 1st input operand (A)`
			`input [63:0] op2, // 2nd input operand (B)`
all fpu units use the unpacking unit 2021-07-29 03:49:21 +00:00			`input [2:0] op_type, // Function opcode`
fpu cleanup 2021-07-24 18:59:57 +00:00			`input P, // Result Precision (0 for double, 1 for single)`

			`output [63:0] Float1, // Converted 1st input operand`
			`output [63:0] Float2 // Converted 2nd input operand`
			`);`

			`wire conv_SP; // Convert from SP to DP`
Added missing files in FPU 2021-04-04 18:09:13 +00:00			`wire Zexp1; // One if the exponent of op1 is zero`
			`wire Zexp2; // One if the exponent of op2 is zero`
			`wire Oexp1; // One if the exponent of op1 is all ones`
			`wire Oexp2; // One if the exponent of op2 is all ones`

			`// Convert from single precision to double precision if (op_type is 11X`
			`// and P is 0) or (op_type is not 11X and P is one).`
all fpu units use the unpacking unit 2021-07-29 03:49:21 +00:00			`assign conv_SP = ~P;`
Added missing files in FPU 2021-04-04 18:09:13 +00:00
			`// Test if the input exponent is zero, because if it is then the`
			`// exponent of the converted number should be zero.`
Fixed writting MStatus FS bits 2021-07-13 17:20:30 +00:00			`assign Zexp1 = ~(\|op1[30:23]);`
			`assign Zexp2 = ~(\|op2[30:23]);`
			`assign Oexp1 = (&op1[30:23]);`
			`assign Oexp2 = (&op2[30:23]);`
Added missing files in FPU 2021-04-04 18:09:13 +00:00
			`// Conditionally convert op1. Lower 29 bits are zero for single precision.`
Fixed writting MStatus FS bits 2021-07-13 17:20:30 +00:00			`assign Float1[62:29] = conv_SP ? {op1[30], {3{(~op1[30]&~Zexp1)\|Oexp1}}, op1[29:0]}`
Added missing files in FPU 2021-04-04 18:09:13 +00:00			`: op1[62:29];`
			`assign Float1[28:0] = op1[28:0] & {29{~conv_SP}};`

			`// Conditionally convert op2. Lower 29 bits are zero for single precision.`
all fpu units use the unpacking unit 2021-07-29 03:49:21 +00:00			`assign Float2[62:29] = conv_SP ? {op2[30], {3{(~op2[30]&~Zexp2)\|Oexp2}}, op2[29:0]}`
Added missing files in FPU 2021-04-04 18:09:13 +00:00			`: op2[62:29];`
			`assign Float2[28:0] = op2[28:0] & {29{~conv_SP}};`

			`// Set the sign of Float1 based on its original sign and if the operation`
			`// is negation (op_type = 101) or absolute value (op_type = 100)`

all fpu units use the unpacking unit 2021-07-29 03:49:21 +00:00			`assign Float1[63] = conv_SP ? op1[31] : op1[63];`
Fixed writting MStatus FS bits 2021-07-13 17:20:30 +00:00			`assign Float2[63] = conv_SP ? op2[31] : op2[63];`
Added missing files in FPU 2021-04-04 18:09:13 +00:00
			`endmodule // convert_inputs`