Table 21.1 Traditional Superscalar versus IA-64 Architecture Superscalar IA-64 RISC-like instructions, one per word RISC-like instructions bundled into groups of three Multiple parallel execution units Multiple parallel execution units Reorders and optimizes instruction stream at run time Reorders and optimizes instruction stream at compile time Branch prediction with speculative execution of one path Speculative execution along both paths of a branch Loads data from memory only when needed, and tries to find the data in the caches first Speculatively loads data before its needed, and still tries to find data in the caches firstTable 21.2 Relationship Between Instruction Type and Execution Unit Type Instruction Type Description Execution Unit Type A Integer ALU I-unit or M-unit I Non-ALU integer I-unit M Memory M-unit F Floating-point F-unit B Branch B-unit X Extended I-unit/B-unitTable 21.3 Template Field Encoding and Instruction Set Mapping Template Slot 0 Slot 1 Slot 2 00 M-unit I-unit I-unit 01 M-unit I-unit I-unit 02 M-unit I-unit I-unit 03 M-unit I-unit I-unit 04 M-unit L-unit X-unit 05 M-unit L-unit X-unit 08 M-unit M-unit I-unit 09 M-unit M-unit I-unit 0A M-unit M-unit I-unit 0B M-unit M-unit I-unit 0C M-unit F-unit I-unit 0D M-unit F-unit I-unit 0E M-unit M-unit F-unit 0F M-unit M-unit F-unit 10 M-unit I-unit B-unit 11 M-unit I-unit B-unit 12 M-unit B-unit B-unit 13 M-unit B-unit B-unit 16 B-unit B-unit B-unit 17 B-unit B-unit B-unit 18 M-unit M-unit B-unit 19 M-unit M-unit B-unit 1C M-unit F-unit B-unit 1D M-unit F-unit B-unitTable 21.5 IA-64 Application Registers Kernel registers (KR0-7) Convey information from the operating system to the application. Register stack configuration (RSC) Controls the operation of the register stack engine (RSE). RSE Backing store pointer (BSP) Holds the address in memory that is the save location for r32 in the current stack frame. RSE Backing store pointer to memory stores (BSPSTORE) Holds the address in memory to which the RSE will spill the next value. RSE NaT collection register (RNAT) Used by the RSE to temporarily hold NaT bits when it is spilling general registers. Compare and exchange value (CCV) Contains the compare value used as the third source operand in the cmpxchg instruction. User NaT collection register (UNAT) Used to temporarily hold NaT bits when saving and restoring general registers with the ld8.fill and st8.spill instructions. Floating-point status register (FPSR) Controls traps, rounding mode, precision control, flags, and other control bits for floating-point instructions. Interval time counter (ITC) Counts up at a fixed relationship to the processor clock frequency. Previous function state (PFS) Saves value in CFM register and related information. Loop count (LC) Used in counted loops and is decremented by counted-loop-type branches. Epilog count (EC) Used for counting the final (epilog) state in modulo-scheduled
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