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div16q24.v
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div16q24.v
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//
// div16q24.v - Divide unsigned number by unsigned number
//
// (C) Copyright 2006-2012 John B. Stephensen
//
// This Verilog source file and all its derivatives are licensed only for
// personal non-profit educational use in the Amateur Radio Service and
// the license is not transferrable. The information is provided as-is for
// experimental purposes and the author does not warranty its freedom
// from defects or its suitability for any specific application.
//
// The dividend and divisor are loaded when IV and MOD are true. On each
// successive clock after IV is asserted, the divisor (B) is subtracted
// from the upper half of the dividend shift register (A) if the result
// will be positive. The result is shifted left by one bit and a one
// shifted into the quotient register (Q) if the subtraction succeeded.
// When the calculation is complete, Q contains the 8-bit integer quotient
// plus 16 fractional bits.
//
// 51 LUTs and 73 registers used. 216 MHz maximum clock speed. 33 clock delay.
//
// Normal Warnings:
// none
//
// Revision History:
// 12-8-10 eliminated truncation warning for bit counter in Spartan-6
// 12-23-10 use inferred adder/subtractor
// 3-22-12 modify for use outside CPU (CPU version is div16a)
//
module div16q24 (
input [15:0] ain,bin, // dividend and divisor input
input iv, // inputs valid
output [23:0] qout, // quotient (8.16)
output ov, // quotient and remainder valid
input clk // master clock
);
// Internal signals
wire[15:0] d; // dividend less divisor
wire s; // sign bit
reg [15:0] a; // dividend shift register
reg [15:0] r; // remainder shift register
reg [15:0] b; // divisor register
reg [23:0] q; // quotient register
reg [33:1] v; // data valid delay
// control logic
always @ (posedge clk)
begin
v <= {v[32:1],iv}; // data valid delay
if (iv) b <= bin; // load divisor register
end
// subtract divisor from shifted dividend
assign {s,d} = {r[15:0],a[15]} - {1'b0,b};
always @ (posedge clk)
begin
if (iv) r <= 0; // reset when dividend loaded
else r <= s ? {r[14:0],a[15]} : d; // ignore subtraction if result negative
if (iv) a <= ain; // load dividend register
else a <= {a[14:0],1'b0}; // shift on every clock after load
q <= {q[22:0],~s}; // shift in quotient bits on every clock
end
// connect output
assign qout = q; // quotient
assign ov = v[33];
endmodule