Apparatus and method for fast failure handling of instructions

What is claimed is: 1. A processor comprising: instruction failure logic to perform a plurality of operations in response to a detected instruction execution failure, the instruction failure logic to be used for instructions which have complex failure modes and which are expected to have a failure frequency above a threshold, wherein the operations include: detecting an instruction execution failure and determining a reason for the failure; storing failure data in a destination register to indicate the failure and to specify details associated with the failure; and allowing application program code to read the failure data and responsively take one or more actions responsive to the failure, wherein the instruction failure logic performs its operations without invocation of an exception handler or switching to a low level domain on a system which employs hierarchical protection domains. 2. The processor as in claim 1 wherein at least one bit of the failure data indicates whether a subsequent attempt to execute the same instruction which failed execution will be unsuccessful. 3. The processor as in claim 2 wherein a first value of the at least one bit indicates that a subsequent attempt to execute the same instruction will be unsuccessful and a second value of the bit indicates that a subsequent attempt to execute the same instruction may be successful. 4. The processor as in claim 3 wherein the application program code reads the bit to determine whether to attempt to re-attempt execution of the same instruction. 5. The processor as in claim 1 wherein the destination register comprises a general purpose register (GPR) accessible by the instruction failure logic. 6. The processor as in claim 1 wherein the failed instruction comprises an instruction which invokes an accelerator, wherein the accelerator attempts to execute the instruction and stores the failure data in the result register in response to the failure. 7. The processor as in claim 6 wherein the failure data indicates that the accelerator was busy servicing a hardware thread different from a thread with which the failed instruction is associated. 8. The processor as in claim 7 wherein the failure data indicates that the failed instruction is not supported by the accelerator. 9. A method comprising: identifying an instruction as one which has a complex failure mode and which is expected to have a failure frequency above a threshold; detecting a failure of an attempted execution of the instruction and determining a reason for the failure; storing failure data in a destination register to indicate the failure and to specify details associated with the failure; and allowing application program code to read the failure data and responsively take one or more actions responsive to the failure, wherein the instruction failure logic performs its operations without invocation of an exception handler or switching to a low level domain on a system which employs hierarchical protection domains. 10. The method as in claim 9 wherein at least one bit of the failure data indicates whether a subsequent attempt to execute the same instruction which failed execution will be unsuccessful. 11. The method as in claim 10 wherein a first value of the at least one bit indicates that a subsequent attempt to execute the same instruction will be unsuccessful and a second value of the bit indicates that a subsequent attempt to execute the same instruction may be successful. 12. The method as in claim 11 wherein the application program code reads the bit to determine whether to attempt to re-attempt execution of the same instruction. 13. The method as in claim 9 wherein the destination register comprises a general purpose register (GPR) accessible by the instruction failure logic. 14. The method as in claim 9 wherein the failed instruction comprises an instruction which invokes an accelerator, wherein the accelerator attempts to execute the instruction and stores the failure data in the result register in response to the failure. 15. The method as in claim 14 wherein the failure data indicates that the accelerator was busy servicing a hardware thread different from a thread with which the failed instruction is associated. 16. The method as in claim 14 wherein the failure data indicates that the failed instruction is not supported by the accelerator.