MIMD Architecture
Figure 2.9:
Two MIMD Categories; Shared Memory and Message Passing MIMD Architectures.
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- It was apparent that distributed memory is the only way efficiently to increase the number of processors managed by a parallel and distributed system.
- If scalability to larger and larger systems (as measured by the number of processors) was to continue, systems had to use distributed memory techniques.
- Two broad categories, see Figure 2.9:
- Shared memory. Processors exchange information through their central shared memory.
- Because access to shared memory is balanced, these systems are also called SMP (symmetric multiprocessor) systems.
- Message passing. Also referred to as distributed memory. Processors exchange information through their interconnection network.
- There is no global memory, so it is necessary to move data from one local memory to another by means of message passing.
- This is typically done by a Send/Receive pair of commands, which must be written into the application software by a programmer
- Data copying and dealing with consistency issues.
- Programming in the shared memory model was easier, and designing systems in the message passing model provided scalability.
- The distributed-shared memory (DSM) architecture began to appear in systems. In such systems,
- memory is physically distributed; for example, the hardware architecture follows the message passing school of design,
- but the programming model follows the shared memory school of thought.
- Thus, the DSM machine is a hybrid that takes advantage of both design schools.
Cem Ozdogan
2010-12-27