annotate modules/bluespec/Pygar/lab4/MemArb.bsv @ 65:cf8bb3038cbd pygar svn.66

[svn r66] sim passes
author punk
date Tue, 11 May 2010 09:05:22 -0400
parents 3958de09a7c1
children
rev   line source
rlm@8 1 // The MIT License
rlm@8 2
rlm@8 3 // Copyright (c) 2009 Massachusetts Institute of Technology
rlm@8 4
rlm@8 5 // Permission is hereby granted, free of charge, to any person obtaining a copy
rlm@8 6 // of this software and associated documentation files (the "Software"), to deal
rlm@8 7 // in the Software without restriction, including without limitation the rights
rlm@8 8 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
rlm@8 9 // copies of the Software, and to permit persons to whom the Software is
rlm@8 10 // furnished to do so, subject to the following conditions:
rlm@8 11
rlm@8 12 // The above copyright notice and this permission notice shall be included in
rlm@8 13 // all copies or substantial portions of the Software.
rlm@8 14
rlm@8 15 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
rlm@8 16 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
rlm@8 17 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
rlm@8 18 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
rlm@8 19 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
rlm@8 20 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
rlm@8 21 // THE SOFTWARE.
rlm@8 22
rlm@8 23 import Connectable::*;
rlm@8 24 import GetPut::*;
rlm@8 25 import ClientServer::*;
rlm@8 26 import FIFOF::*;
rlm@8 27 import FIFO::*;
punk@28 28 import Trace::*;
rlm@8 29
rlm@8 30 // Local includes
rlm@8 31 `include "asim/provides/processor_library.bsh"
rlm@8 32
rlm@8 33 interface MemArb;
rlm@8 34
rlm@8 35 interface Server#(MainMemReq,MainMemResp) cache0_server;
rlm@8 36 interface Server#(MainMemReq,MainMemResp) cache1_server;
rlm@8 37 interface Client#(MainMemReq,MainMemResp) mmem_client;
rlm@8 38
rlm@8 39 endinterface
rlm@8 40
rlm@8 41 typedef enum { REQ0, REQ1 } ReqPtr deriving(Eq,Bits);
rlm@8 42
rlm@8 43 module mkMemArb( MemArb );
rlm@8 44
rlm@8 45 //-----------------------------------------------------------
rlm@8 46 // State
rlm@8 47
rlm@8 48 FIFOF#(MainMemReq) req0Q <- mkBFIFOF1();
rlm@8 49 FIFO#(MainMemResp) resp0Q <- mkBFIFO1();
rlm@8 50
rlm@8 51 FIFOF#(MainMemReq) req1Q <- mkBFIFOF1();
rlm@8 52 FIFO#(MainMemResp) resp1Q <- mkBFIFO1();
rlm@8 53
rlm@8 54 FIFO#(MainMemReq) mreqQ <- mkBFIFO1();
rlm@8 55 FIFO#(MainMemResp) mrespQ <- mkBFIFO1();
rlm@8 56
rlm@8 57 Reg#(ReqPtr) nextReq <- mkReg(REQ0);
rlm@8 58
rlm@8 59 //-----------------------------------------------------------
rlm@8 60 // Some wires
rlm@8 61
rlm@8 62 let req0avail = req0Q.notEmpty();
rlm@8 63 let req1avail = req1Q.notEmpty();
rlm@8 64
rlm@8 65 //-----------------------------------------------------------
rlm@8 66 // Rules
rlm@8 67
rlm@8 68 rule chooseReq0 ( req0avail && (!req1avail || (nextReq == REQ0)) );
rlm@8 69 traceTiny("mkMemArb", "memArb req0",req0Q.first());
rlm@8 70
rlm@8 71 // Rewrite tag field if this is a load ...
rlm@8 72 MainMemReq mreq
rlm@8 73 = case ( req0Q.first() ) matches
rlm@8 74 tagged LoadReq .ld : return LoadReq { tag:0, addr:ld.addr };
rlm@8 75 tagged StoreReq .st : return req0Q.first();
rlm@8 76 endcase;
rlm@8 77
rlm@8 78 // Send out the request
rlm@8 79 mreqQ.enq(mreq);
rlm@8 80 nextReq <= REQ1;
rlm@8 81 req0Q.deq();
rlm@8 82
rlm@8 83 endrule
rlm@8 84
rlm@8 85 rule chooseReq1 ( req1avail && (!req0avail || (nextReq == REQ1)) );
rlm@8 86 traceTiny("mkMemArb", "memArb req1",req1Q.first);
rlm@8 87
rlm@8 88 // Rewrite tag field if this is a load ...
rlm@8 89 MainMemReq mreq
rlm@8 90 = case ( req1Q.first() ) matches
rlm@8 91 tagged LoadReq .ld : return LoadReq { tag:1, addr:ld.addr };
rlm@8 92 tagged StoreReq .st : return req1Q.first();
rlm@8 93 endcase;
rlm@8 94
rlm@8 95 // Send out the request
rlm@8 96 mreqQ.enq(mreq);
rlm@8 97 nextReq <= REQ0;
rlm@8 98 req1Q.deq();
rlm@8 99
rlm@8 100 endrule
rlm@8 101
rlm@8 102 rule returnResp;
rlm@8 103 traceTiny("mkMemArb", "resp",mrespQ.first());
rlm@8 104
rlm@8 105 // Use tag to figure out where to send response
rlm@8 106 mrespQ.deq();
rlm@8 107 let tag
rlm@8 108 = case ( mrespQ.first() ) matches
rlm@8 109 tagged LoadResp .ld : return ld.tag;
rlm@8 110 tagged StoreResp .st : return st.tag;
rlm@8 111 endcase;
rlm@8 112
rlm@8 113 if ( tag == 0 )
rlm@8 114 resp0Q.enq(mrespQ.first());
rlm@8 115 else
rlm@8 116 resp1Q.enq(mrespQ.first());
rlm@8 117
rlm@8 118 endrule
rlm@8 119
rlm@8 120 //-----------------------------------------------------------
rlm@8 121 // Methods
rlm@8 122
rlm@8 123 interface Server cache0_server;
rlm@8 124 interface Put request = fifofToPut(req0Q);
rlm@8 125 interface Get response = fifoToGet(resp0Q);
rlm@8 126 endinterface
rlm@8 127
rlm@8 128 interface Server cache1_server;
rlm@8 129 interface Put request = fifofToPut(req1Q);
rlm@8 130 interface Get response = fifoToGet(resp1Q);
rlm@8 131 endinterface
rlm@8 132
rlm@8 133 interface Client mmem_client;
rlm@8 134 interface Get request = fifoToGet(mreqQ);
rlm@8 135 interface Put response = fifoToPut(mrespQ);
rlm@8 136 endinterface
rlm@8 137
rlm@8 138 endmodule
rlm@8 139
rlm@8 140