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[/] [bluespec-h264/] [trunk/] [src/] [BRAM.bsv] - Rev 101
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// The MIT License
// Copyright (c) 2006-2007 Massachusetts Institute of Technology
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import FIFO::*;
//One RAM.
interface BRAM#(type idx_type, type data_type);
method Action read_req(idx_type idx);
method ActionValue#(data_type) read_resp();
method Action write(idx_type idx, data_type data);
endinterface
//Two RAMs.
interface BRAM_2#(type idx_type, type data_type);
method Action read_req1(idx_type idx);
method Action read_req2(idx_type idx);
method ActionValue#(data_type) read_resp1();
method ActionValue#(data_type) read_resp2();
method Action write(idx_type idx, data_type data);
endinterface
//Three RAMs.
interface BRAM_3#(type idx_type, type data_type);
method Action read_req1(idx_type idx);
method Action read_req2(idx_type idx);
method Action read_req3(idx_type idx);
method ActionValue#(data_type) read_resp1();
method ActionValue#(data_type) read_resp2();
method ActionValue#(data_type) read_resp3();
method Action write(idx_type idx, data_type data);
endinterface
module mkBRAM#(Integer low, Integer high)
//interface:
(BRAM#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM#(idx_type, data_type) m <- (valueof(data) == 0) ?
mkBRAM_Zero() :
mkBRAM_NonZero(low, high);
return m;
endmodule
import "BVI" BRAM = module mkBRAM_NonZero#(Integer low, Integer high)
//interface:
(BRAM#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
default_clock clk(CLK);
parameter addr_width = valueof(idx);
parameter data_width = valueof(data);
parameter lo = low;
parameter hi = high;
method DOUT read_resp() ready(DOUT_RDY) enable(DOUT_EN);
method read_req(RD_ADDR) ready(RD_RDY) enable(RD_EN);
method write(WR_ADDR, WR_VAL) enable(WR_EN);
schedule read_req CF (read_resp, write);
schedule read_resp CF (read_req, write);
schedule write CF (read_req, read_resp);
schedule read_req C read_req;
schedule read_resp C read_resp;
schedule write C write;
endmodule
module mkBRAM_Zero
//interface:
(BRAM#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
FIFO#(data_type) q <- mkFIFO();
method Action read_req(idx_type i);
q.enq(?);
endmethod
method Action write(idx_type i, data_type d);
noAction;
endmethod
method ActionValue#(data_type) read_resp();
q.deq();
return q.first();
endmethod
endmodule
module mkBRAM_Full
//interface:
(BRAM#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM#(idx_type, data_type) br <- mkBRAM(0, valueof(TExp#(idx)) - 1);
return br;
endmodule
module mkBRAM_2#(Integer low, Integer high)
//interface:
(BRAM_2#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM#(idx_type, data_type) br1 <- mkBRAM(low, high);
BRAM#(idx_type, data_type) br2 <- mkBRAM(low, high);
method read_req1(idx) = br1.read_req(idx);
method read_req2(idx) = br2.read_req(idx);
method read_resp1() = br1.read_resp();
method read_resp2() = br2.read_resp();
method Action write(idx_type idx, data_type data);
br1.write(idx, data);
br2.write(idx, data);
endmethod
endmodule
module mkBRAM_2_Full
//interface:
(BRAM_2#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM_2#(idx_type, data_type) br <- mkBRAM_2(0, valueof(TExp#(idx)) - 1);
return br;
endmodule
module mkBRAM_3#(Integer low, Integer high)
//interface:
(BRAM_3#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM#(idx_type, data_type) br1 <- mkBRAM(low, high);
BRAM#(idx_type, data_type) br2 <- mkBRAM(low, high);
BRAM#(idx_type, data_type) br3 <- mkBRAM(low, high);
method read_req1(idx) = br1.read_req(idx);
method read_req2(idx) = br2.read_req(idx);
method read_req3(idx) = br3.read_req(idx);
method read_resp1() = br1.read_resp();
method read_resp2() = br2.read_resp();
method read_resp3() = br3.read_resp();
method Action write(idx_type idx, data_type data);
br1.write(idx, data);
br2.write(idx, data);
br3.write(idx, data);
endmethod
endmodule
module mkBRAM_3_Full
//interface:
(BRAM_3#(idx_type, data_type))
provisos
(Bits#(idx_type, idx),
Bits#(data_type, data),
Literal#(idx_type));
BRAM_3#(idx_type, data_type) br <- mkBRAM_3(0, valueof(TExp#(idx)) - 1);
return br;
endmodule
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