view core/scemi/SceMiLayer.bsv @ 60:6179c07c21d7 pygar svn.61

[svn r61] synthesis boundaries
author punk
date Mon, 10 May 2010 20:29:20 -0400
parents 91a1f76ddd62
children
line wrap: on
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2 import ClientServer::*;
3 import FIFO::*;
4 import GetPut::*;
5 import DefaultValue::*;
6 import SceMi::*;
7 import Clocks::*;
9 import Core::*;
10 import ProcTypes::*;
11 import Processor::*;
12 import DataCacheBlocking::*;
13 import InstCacheBlocking::*;
15 interface DutWrapper;
16 interface Core core;
18 // We use a Bit#(1) instead of void because Bluespec Sce-Mi doesn't appear
19 // to support sending void over the PCIe link yet.
20 interface Put#(Bit#(1)) doreset;
21 endinterface
23 (* synthesize *)
24 module [Module] mkDutWrapper (DutWrapper);
26 Clock clk <- exposeCurrentClock;
27 MakeResetIfc myrst <- mkReset(2000, True, clk);
29 Core coreifc <- mkCore(reset_by myrst.new_rst);
31 // For tracing
32 Reg#(int) cycle <- mkReg(0);
33 rule printCycles;
34 cycle <= cycle + 1;
35 $fdisplay(stderr, " => Cycle = %d", cycle);
36 endrule
38 interface Core core = coreifc;
40 interface Put doreset;
41 method Action put(Bit#(1) x);
42 cycle <= 0;
43 myrst.assertReset();
44 endmethod
45 endinterface
47 endmodule
49 module [SceMiModule] mkSceMiLayer();
51 SceMiClockConfiguration conf = defaultValue;
53 SceMiClockPortIfc clk_port <- mkSceMiClockPort(conf);
54 DutWrapper dut <- buildDut(mkDutWrapper, clk_port);
56 Empty mmem <- mkClientXactor(dut.core.mmem_client, clk_port);
57 Empty tohost <- mkCPUToHostXactor(dut.core.tohost, clk_port);
58 Empty stats <- mkCoreStatsXactor(dut.core.stats, clk_port);
59 Empty doreset <- mkPutXactor(dut.doreset, clk_port);
61 Empty shutdown <- mkShutdownXactor();
63 endmodule
65 module [SceMiModule] mkCPUToHostXactor#(CPUToHost tohost, SceMiClockPortIfc clk_port ) (Empty);
67 // Access the controlled clock and reset
68 Clock cclock = clk_port.cclock;
69 Reset creset = clk_port.creset;
71 // req belongs entirely to the controlled clock domain. We'll use the
72 // clock domain crossings already implemented by the Bluespec people (in
73 // the Put and Get transactors), because they know about such things
74 // better than I do.
75 FIFO#(int) req <- mkFIFO(clocked_by cclock, reset_by creset);
77 Get#(Bit#(32)) resp = interface Get;
78 method ActionValue#(Bit#(32)) get();
79 req.deq();
80 return tohost.cpuToHost(req.first());
81 endmethod
82 endinterface;
84 Empty request <- mkPutXactor(toPut(req), clk_port);
85 Empty response <- mkGetXactor(resp, clk_port);
87 endmodule
89 typedef enum {
90 DCACHE_ACCESSES, DCACHE_MISSES, DCACHE_WRITEBACKS,
91 ICACHE_ACCESSES, ICACHE_MISSES, ICACHE_EVICTIONS,
92 PROC_INST, PROC_CYCLES
93 } StatID deriving(Bits, Eq);
95 module [SceMiModule] mkCoreStatsXactor#(CoreStats stats, SceMiClockPortIfc clk_port) (Empty);
97 // Access the controlled clock and reset
98 Clock cclock = clk_port.cclock;
99 Reset creset = clk_port.creset;
101 // Again, req and resp belong to the controlled clock domain.
102 FIFO#(StatID) req <- mkFIFO(clocked_by cclock, reset_by creset);
103 FIFO#(Stat) resp <- mkFIFO(clocked_by cclock, reset_by creset);
105 rule handleRequest (True);
106 case (req.first())
107 DCACHE_ACCESSES: begin
108 let x <- stats.dcache.num_accesses.get();
109 resp.enq(x);
110 end
111 DCACHE_MISSES: begin
112 let x <- stats.dcache.num_misses.get();
113 resp.enq(x);
114 end
115 DCACHE_WRITEBACKS: begin
116 let x <- stats.dcache.num_writebacks.get();
117 resp.enq(x);
118 end
119 ICACHE_ACCESSES: begin
120 let x <- stats.icache.num_accesses.get();
121 resp.enq(x);
122 end
123 ICACHE_MISSES: begin
124 let x <- stats.icache.num_misses.get();
125 resp.enq(x);
126 end
127 ICACHE_EVICTIONS: begin
128 let x <- stats.icache.num_evictions.get();
129 resp.enq(x);
130 end
131 PROC_INST: begin
132 let x <- stats.proc.num_inst.get();
133 resp.enq(x);
134 end
135 PROC_CYCLES: begin
136 let x <- stats.proc.num_cycles.get();
137 resp.enq(x);
138 end
139 endcase
140 req.deq();
141 endrule
143 Server#(StatID, Stat) server = interface Server;
144 interface Get response = toGet(resp);
145 interface Put request = toPut(req);
146 endinterface;
148 Empty xx <- mkServerXactor(server, clk_port);
149 endmodule