Scalar processor
Scalar processors are a class of computer processors that process only one data item at a time. Typical data items include integers and floating point numbers.[1]
Classification
A scalar processor is classified as a single instruction, single data (SISD) processor in Flynn's taxonomy. The Intel 486 is an example of a scalar processor. It is to be contrasted with a vector processor where a single instruction operates simultaneously on multiple data items (and thus is referred to as a single instruction, multiple data (SIMD) processor).[2] The difference is analogous to the difference between scalar and vector arithmetic.
The term scalar in computing dates to the 1970 and 1980s when vector processors were first introduced. It was originally used to distinguish the older designs from the new vector processors.
Superscalar processor
A superscalar processor (such as the Intel P5) may execute more than one instruction during a clock cycle by simultaneously dispatching multiple instructions to redundant functional units on the processor. Each functional unit is not a separate CPU core but an execution resource within a single CPU such as an arithmetic logic unit, a bit shifter, or a multiplier.[1] The Cortex-M7, like many consumer CPUs today, is a superscalar processor.[3]
Scalar data type
A scalar data type, or just scalar, is any non-composite value.
Generally, all basic primitive data types are considered scalar:
- The boolean data type (
bool) - Numeric types (
int, the floating point typesfloatanddouble) - Character types (
char)
Some programming languages also treat strings as scalar types, while other languages treat strings as arrays or objects.
See also
- Instruction pipeline
- Parallel computing
References
- ^ a b Ram, Badri (2001). Advanced microprocessors and interfacing. New Delhi: Tata McGraw-Hill Pub. Co. p. 11. ISBN 978-0-07-043448-6. OCLC 55946893.
- ^ Patterson, David (2012). Computer organization and design: the hardware/software interface. Waltham, MA: Morgan Kaufmann. p. 650. ISBN 978-0-12-374750-1. OCLC 746618653.
- ^ "Cortex-M7". Arm Developer. Arm Limited. Retrieved 2021-07-03.
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Processor technologies
- Abstract machine
- Stored-program computer
- Finite-state machine
- Turing machine
- Belt machine
- Stack machine
- Register machines
architectures
| Types | |
|---|---|
| Instruction sets |
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| Instruction pipelining | |
|---|---|
| Hazards | |
| Out-of-order | |
| Speculative |
| Level |
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| Multithreading | |
| Flynn's taxonomy |
performance
- Transistor count
- Instructions per cycle (IPC)
- Cycles per instruction (CPI)
- Instructions per second (IPS)
- Floating-point operations per second (FLOPS)
- Transactions per second (TPS)
- Synaptic updates per second (SUPS)
- Performance per watt (PPW)
- Cache performance metrics
- Computer performance by orders of magnitude
- Central processing unit (CPU)
- Graphics processing unit (GPU)
- Vector
- Barrel
- Stream
- Tile processor
- Coprocessor
- PAL
- ASIC
- FPGA
- FPOA
- CPLD
- Multi-chip module (MCM)
- System in a package (SiP)
- Package on a package (PoP)
| By application | |
|---|---|
| Systems on chip |
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| Hardware accelerators |
| Functional units | |
|---|---|
| Logic | |
| Registers | |
| Control unit | |
| Datapath | |
| Circuitry |
management
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