ADZS-21262-1-EZEXT Analog Devices Inc, ADZS-21262-1-EZEXT Datasheet - Page 4

ADZS-21262-1-EZEXT

Manufacturer Part Number

ADZS-21262-1-EZEXT

Description

BOARD DAUGHTER FOR ADSP-21262

Manufacturer

Analog Devices Inc

Datasheet

1.ADSP-21363KSWZ-1AA.pdf (56 pages)

Specifications of ADZS-21262-1-EZEXT

Accessory Type

DSP

Silicon Manufacturer

Analog Devices

Core Architecture

SHARC

Features

Expansion Interface, High Speed Converter (HSC) Interface

Kit Contents

Board Docs

Silicon Family Name

SHARC

Silicon Core Number

ADSP-21262

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

ADSP-21262

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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ADSP-21362/ADSP-21363/ADSP-21364/ADSP-21365/ADSP-21366

SHARC FAMILY CORE ARCHITECTURE

The ADSP-2136x is code-compatible at the assembly level with

the ADSP-2126x, ADSP-21160, and ADSP-21161, and with the

first generation ADSP-2106x SHARC processors. The

ADSP-2136x shares architectural features with the ADSP-2126x

and ADSP-2116x SIMD SHARC processors, as shown in

Figure 2

SIMD Computational Engine

The processor contains two computational processing elements

that operate as a single-instruction, multiple-data (SIMD)

engine. The processing elements are referred to as PEX and PEY

and each contains an ALU, multiplier, shifter, and register file.

PEX is always active, and PEY can be enabled by setting the

PEYEN mode bit in the MODE1 register. When this mode is

enabled, the same instruction is executed in both processing ele-

ments, but each processing element operates on different data.

This architecture is efficient at executing math intensive signal

processing algorithms.

and detailed in the following sections.

80-BIT

MRF

SIMD Core

MULTIPLIER

DAG1

16x32

DMD/PMD 64

80-BIT

MRB

SHIFTER

DAG2

16x32

ALU

Rev. G | Page 4 of 56 | March 2011

Figure 2. SHARC Core Block Diagram

JTAG

16x40-BIT

ASTATx

STYKx

Rx/Fx

PEx

FLAG

PROGRAM SEQUENCER

TIMER

5 STAGE

DATA

SWAP

INTERRUPT

Entering SIMD mode also has an effect on the way data is trans-

ferred between memory and the processing elements. When in

SIMD mode, twice the data bandwidth is required to sustain

computational operation in the processing elements. Because of

this requirement, entering SIMD mode also doubles the

bandwidth between memory and the processing elements.

When using the DAGs to transfer data in SIMD mode, two data

values are transferred with each access of memory or

the register file.

Independent, Parallel Computation Units

Within each processing element is a set of computational units.

The computational units consist of an arithmetic/logic unit

(ALU), multiplier, and shifter. These units perform all opera-

tions in a single cycle. The three units within each processing

element are arranged in parallel, maximizing computational

throughput. Single multifunction instructions execute parallel

ALU and multiplier operations. In SIMD mode, the parallel

ALU and multiplier operations occur in both processing

elements. These computation units support IEEE 32-bit,

single-precision floating-point, 40-bit extended-precision

floating-point, and 32-bit fixed-point data formats.

16x40-BIT

ASTATy

Sx/SFx

STYKy

PEy

CACHE

PM ADDRESS 32

DM ADDRESS 32

PM DATA 64

DM DATA 64

ALU

PM ADDRESS 24

PM DATA 48

SHIFTER

80-BIT

MSB

MULTIPLIER

SYSTEM

4x32-BIT

USTAT

64-BIT

I/F

80-BIT

MSF

ADZS-21262-1-EZEXT Analog Devices Inc, ADZS-21262-1-EZEXT Datasheet - Page 4

ADZS-21262-1-EZEXT

Specifications of ADZS-21262-1-EZEXT

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