- { JMPLCALL, LSIssueSlots.rid, 0, 1 },
- { JMPLRET, LSIssueSlots.rid, 0, 1 },
-
- //
- // Many instructions cannot issue for the next 2 cycles after an FCMP
- // We model that with a fake resource FCMPDelayCycle.
- //
- { FCMPS, FCMPDelayCycle.rid, 1, 3 },
- { FCMPD, FCMPDelayCycle.rid, 1, 3 },
- { FCMPQ, FCMPDelayCycle.rid, 1, 3 },
-
- { MULX, FCMPDelayCycle.rid, 1, 1 },
- { SDIVX, FCMPDelayCycle.rid, 1, 1 },
- { UDIVX, FCMPDelayCycle.rid, 1, 1 },
-//{ SMULcc, FCMPDelayCycle.rid, 1, 1 },
-//{ UMULcc, FCMPDelayCycle.rid, 1, 1 },
-//{ SDIVcc, FCMPDelayCycle.rid, 1, 1 },
-//{ UDIVcc, FCMPDelayCycle.rid, 1, 1 },
- { STD, FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSZ, FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSLEZ,FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSLZ, FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSNZ, FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSGZ, FCMPDelayCycle.rid, 1, 1 },
- { FMOVRSGEZ,FCMPDelayCycle.rid, 1, 1 },
-
- //
- // Some instructions are stalled in the GROUP stage if a CTI is in
- // the E or C stage. We model that with a fake resource CTIDelayCycle.
- //
- { LDD, CTIDelayCycle.rid, 1, 1 },
-//{ LDDA, CTIDelayCycle.rid, 1, 1 },
-//{ LDDSTUB, CTIDelayCycle.rid, 1, 1 },
-//{ LDDSTUBA, CTIDelayCycle.rid, 1, 1 },
-//{ SWAP, CTIDelayCycle.rid, 1, 1 },
-//{ SWAPA, CTIDelayCycle.rid, 1, 1 },
-//{ CAS, CTIDelayCycle.rid, 1, 1 },
-//{ CASA, CTIDelayCycle.rid, 1, 1 },
-//{ CASX, CTIDelayCycle.rid, 1, 1 },
-//{ CASXA, CTIDelayCycle.rid, 1, 1 },
-
- //
- // Signed int loads of less than dword size return data in cycle N1 (not C)
- // and put all loads in consecutive cycles into delayed load return mode.
- //
- { LDSB, LdReturn.rid, 2, -1 },
- { LDSB, LdReturn.rid, 3, 1 },
-
- { LDSH, LdReturn.rid, 2, -1 },
- { LDSH, LdReturn.rid, 3, 1 },
-
- { LDSW, LdReturn.rid, 2, -1 },
- { LDSW, LdReturn.rid, 3, 1 },
-
- //
- // RDPR from certain registers and RD from any register are not dispatchable
- // until four clocks after they reach the head of the instr. buffer.
- // Together with their single-issue requirement, this means all four issue
- // slots are effectively blocked for those cycles, plus the issue cycle.
- // This does not increase the latency of the instruction itself.
- //
- { RDCCR, AllIssueSlots.rid, 0, 5 },
- { RDCCR, AllIssueSlots.rid, 0, 5 },
- { RDCCR, AllIssueSlots.rid, 0, 5 },
- { RDCCR, AllIssueSlots.rid, 0, 5 },
-
-#undef EXPLICIT_BUBBLES_NEEDED
-#ifdef EXPLICIT_BUBBLES_NEEDED
- //
- // MULScc inserts one bubble.
- // This means it breaks the current group (captured in UltraSparcSchedInfo)
- // *and occupies all issue slots for the next cycle
- //
-//{ MULScc, AllIssueSlots.rid, 2, 2-1 },
-//{ MULScc, AllIssueSlots.rid, 2, 2-1 },
-//{ MULScc, AllIssueSlots.rid, 2, 2-1 },
-//{ MULScc, AllIssueSlots.rid, 2, 2-1 },
-
- //
- // SMULcc inserts between 4 and 18 bubbles, depending on #leading 0s in rs1.
- // We just model this with a simple average.
- //
-//{ SMULcc, AllIssueSlots.rid, 2, ((4+18)/2)-1 },
-//{ SMULcc, AllIssueSlots.rid, 2, ((4+18)/2)-1 },
-//{ SMULcc, AllIssueSlots.rid, 2, ((4+18)/2)-1 },
-//{ SMULcc, AllIssueSlots.rid, 2, ((4+18)/2)-1 },
-
- // SMULcc inserts between 4 and 19 bubbles, depending on #leading 0s in rs1.
-//{ UMULcc, AllIssueSlots.rid, 2, ((4+19)/2)-1 },
-//{ UMULcc, AllIssueSlots.rid, 2, ((4+19)/2)-1 },
-//{ UMULcc, AllIssueSlots.rid, 2, ((4+19)/2)-1 },
-//{ UMULcc, AllIssueSlots.rid, 2, ((4+19)/2)-1 },
-
- //
- // MULX inserts between 4 and 34 bubbles, depending on #leading 0s in rs1.
- //
- { MULX, AllIssueSlots.rid, 2, ((4+34)/2)-1 },
- { MULX, AllIssueSlots.rid, 2, ((4+34)/2)-1 },
- { MULX, AllIssueSlots.rid, 2, ((4+34)/2)-1 },
- { MULX, AllIssueSlots.rid, 2, ((4+34)/2)-1 },
-
- //
- // SDIVcc inserts 36 bubbles.
- //
-//{ SDIVcc, AllIssueSlots.rid, 2, 36-1 },
-//{ SDIVcc, AllIssueSlots.rid, 2, 36-1 },
-//{ SDIVcc, AllIssueSlots.rid, 2, 36-1 },
-//{ SDIVcc, AllIssueSlots.rid, 2, 36-1 },
-
- // UDIVcc inserts 37 bubbles.
-//{ UDIVcc, AllIssueSlots.rid, 2, 37-1 },
-//{ UDIVcc, AllIssueSlots.rid, 2, 37-1 },
-//{ UDIVcc, AllIssueSlots.rid, 2, 37-1 },
-//{ UDIVcc, AllIssueSlots.rid, 2, 37-1 },
-
- //
- // SDIVX inserts 68 bubbles.
- //
- { SDIVX, AllIssueSlots.rid, 2, 68-1 },
- { SDIVX, AllIssueSlots.rid, 2, 68-1 },
- { SDIVX, AllIssueSlots.rid, 2, 68-1 },
- { SDIVX, AllIssueSlots.rid, 2, 68-1 },
-
- //
- // UDIVX inserts 68 bubbles.
- //
- { UDIVX, AllIssueSlots.rid, 2, 68-1 },
- { UDIVX, AllIssueSlots.rid, 2, 68-1 },
- { UDIVX, AllIssueSlots.rid, 2, 68-1 },
- { UDIVX, AllIssueSlots.rid, 2, 68-1 },
-
- //
- // WR inserts 4 bubbles.
- //
-//{ WR, AllIssueSlots.rid, 2, 68-1 },
-//{ WR, AllIssueSlots.rid, 2, 68-1 },
-//{ WR, AllIssueSlots.rid, 2, 68-1 },
-//{ WR, AllIssueSlots.rid, 2, 68-1 },
-
- //
- // WRPR inserts 4 bubbles.
- //
-//{ WRPR, AllIssueSlots.rid, 2, 68-1 },
-//{ WRPR, AllIssueSlots.rid, 2, 68-1 },
-//{ WRPR, AllIssueSlots.rid, 2, 68-1 },
-//{ WRPR, AllIssueSlots.rid, 2, 68-1 },
-
- //
- // DONE inserts 9 bubbles.
- //
-//{ DONE, AllIssueSlots.rid, 2, 9-1 },
-//{ DONE, AllIssueSlots.rid, 2, 9-1 },
-//{ DONE, AllIssueSlots.rid, 2, 9-1 },
-//{ DONE, AllIssueSlots.rid, 2, 9-1 },
-
- //
- // RETRY inserts 9 bubbles.
- //
-//{ RETRY, AllIssueSlots.rid, 2, 9-1 },
-//{ RETRY, AllIssueSlots.rid, 2, 9-1 },
-//{ RETRY, AllIssueSlots.rid, 2, 9-1 },
-//{ RETRY, AllIssueSlots.rid, 2, 9-1 },
-
-#endif /*EXPLICIT_BUBBLES_NEEDED */