22
MicroBlaze Processor Reference Guide
UG081 (v14.7)
Chapter 2:
MicroBlaze Architecture
Semaphore Synchronization
The LWX and SWX. instructions are used to implement common semaphore operations, including
test and set, compare and swap, exchange memory, and fetch and add. They are also used to
implement spinlocks.
These instructions are typically used by system programs and are called by application programs as
needed. Generally, a program uses LWX to load a semaphore from memory, causing the reservation
to be set (the processor maintains the reservation internally). The program can compute a result
based on the semaphore value and conditionally store the result back to the same memory location
using the SWX instruction. The conditional store is performed based on the existence of the
reservation established by the preceding LWX instruction. If the reservation exists when the store is
executed, the store is performed and MSR[C] is cleared to 0. If the reservation does not exist when
the store is executed, the target memory location is not modified and MSR[C] is set to 1.
If the store is successful, the sequence of instructions from the semaphore load to the semaphore
store appear to be executed atomically—no other device modified the semaphore location between
SB Rd,Ra,Rb
SBR Rd,Ra,Rb
110100
Rd
Ra
Rb
00000000000
01000000000
Addr := Ra + Rb
*Addr[0:8] := Rd[24:31]
SH Rd,Ra,Rb
SHR Rd,Ra,Rb
110101
Rd
Ra
Rb
00000000000
01000000000
Addr := Ra + Rb
*Addr[0:16] := Rd[16:31]
SW Rd,Ra,Rb
SWR Rd,Ra,Rb
110110
Rd
Ra
Rb
00000000000
01000000000
Addr := Ra + Rb
*Addr := Rd
SWX Rd,Ra,Rb
110110
Rd
Ra
Rb
10000000000 Addr := Ra + Rb
*Addr := Rd if Reservation = 1
Reservation := 0
LBUI Rd,Ra,Imm
111000
Rd
Ra
Imm
Addr := Ra + s(Imm)
Rd[0:23] := 0
Rd[24:31] := *Addr[0:7]
LHUI Rd,Ra,Imm
111001
Rd
Ra
Imm
Addr := Ra + s(Imm)
Rd[0:15] := 0
Rd[16:31] := *Addr[0:15]
LWI Rd,Ra,Imm
111010
Rd
Ra
Imm
Addr := Ra + s(Imm)
Rd := *Addr
SBI Rd,Ra,Imm
111100
Rd
Ra
Imm
Addr := Ra + s(Imm)
*Addr[0:7] := Rd[24:31]
SHI Rd,Ra,Imm
111101
Rd
Ra
Imm
Addr := Ra + s(Imm)
*Addr[0:15] := Rd[16:31]
SWI Rd,Ra,Imm
111110
Rd
Ra
Imm
Addr := Ra + s(Imm)
*Addr := Rd
1. Due to the many different corner cases involved in floating point arithmetic, only the normal behavior is described. A full description of the
behavior can be found in
Chapter 5, “MicroBlaze Instruction Set Architecture.”
Table 2-6:
MicroBlaze Instruction Set Summary
(Continued)
Type A
0-5
6-10
11-15 16-20
21-31
Semantics
Type B
0-5
6-10
11-15
16-31
Содержание MicroBlaze
Страница 1: ...MicroBlaze Processor Reference Guide Embedded Development Kit EDK 14 7 UG081 v14 7...
Страница 4: ...MicroBlaze Processor Reference Guide www xilinx com UG081 v14 7...
Страница 8: ...8 www xilinx com MicroBlaze Processor Reference Guide UG081 v14 7 Chapter 1 Introduction Send Feedback...
Страница 262: ...262 www xilinx com MicroBlaze Processor Reference Guide UG081 v14 7 Send Feedback...