ADSP-21371KSWZ-2B Analog Devices Inc, ADSP-21371KSWZ-2B Datasheet - Page 4
ADSP-21371KSWZ-2B
Manufacturer Part Number
ADSP-21371KSWZ-2B
Description
IC DSP 32BIT 266MHZ 208-LQFP
Manufacturer
Analog Devices Inc
Series
SHARC®r
Type
Floating Pointr
Specifications of ADSP-21371KSWZ-2B
Package / Case
208-LQFP
Interface
DAI, DPI
Operating Temperature
0°C ~ 70°C
Clock Rate
266MHz
Non-volatile Memory
ROM (512 kB)
On-chip Ram
128kB
Voltage - I/o
3.30V
Voltage - Core
1.20V
Mounting Type
Surface Mount
Svhc
No SVHC (18-Jun-2010)
Base Number
21371
Core Frequency Typ
266MHz
Dsp Type
Floating Point
Mmac
532
No. Of Pins
208
Interface Type
SPI, UART
Rohs Compliant
Yes
Operating Temperature Range
0°C To +70°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Price
Company:
Part Number:
ADSP-21371KSWZ-2B
Manufacturer:
Analog Devices Inc
Quantity:
10 000
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ADSP-21371
GENERAL DESCRIPTION
The ADSP-21371 SHARC processor is a member of the SIMD
SHARC family of DSPs that feature Analog Devices' Super Har
vard Architecture. The ADSP-21371 is source code compatible
with the ADSP-2126x, ADSP-2136x, and ADSP-2116x DSPs as
well as with first generation ADSP-2106x SHARC processors in
SISD (single-instruction, single-data) mode. The ADSP-21371
is a 32-bit/40-bit floating point processors optimized for high
performance automotive audio applications with its large on-
chip SRAM and mask-programmable ROM, multiple internal
buses to eliminate I/O bottlenecks, and an innovative digital
applications interface (DAI).
As shown in the functional block diagram
ADSP-21371 uses two computational units to deliver a signifi
cant performance increase over the previous SHARC processors
on a range of DSP algorithms. Fabricated in a state-of-the-art,
high speed, CMOS process, the ADSP-21371 processor achieves
an instruction cycle time of 3.75 ns at 266 MHz. With its SIMD
computational hardware, the ADSP-21371 can perform
1.596 GFLOPS running at 266 MHz.
Table 1
Table 1. ADSP-21371 Benchmarks (at 266 MHz)
1
The ADSP-21371 continues SHARC’s industry-leading stan
dards of integration for DSPs, combining a high performance
32-bit DSP core with integrated, on-chip system features.
The block diagram of the ADSP-21371
following architectural features:
Benchmark Algorithm
1024 Point Complex FFT (Radix 4, With Reversal)
FIR Filter (per Tap)
IIR Filter (per Biquad)
Matrix Multiply (Pipelined)
[3
[4
Divide (y/×)
Inverse Square Root
Assumes two files in multichannel SIMD mode
• Two processing elements, each of which comprises an
• Data address generators (DAG1, DAG2)
• Program sequencer with instruction cache
• PM and DM buses capable of supporting four 32-bit data
• Two programmable interval timers with external event
• On-chip SRAM (1M bit)
ALU, multiplier, shifter, and data register file
transfers between memory and the core at every core pro
cessor cycle
counter capabilities
3] × [3
4] × [4
shows performance benchmarks for the ADSP-21371.
1]
1]
1
1
on Page 1
on Page
34.5 μs
Speed
(at 266 MHz)
1.88 ns
7.5 ns
16.91 ns
30.07 ns
13.1 ns
20.4 ns
illustrates the
1, the
Rev. 0 | Page 4 of 48 | June 2007
The block diagram of the ADSP-21371
the following architectural features:
ADSP-21371 FAMILY CORE ARCHITECTURE
The ADSP-21371 is code compatible at the assembly level with
the ADSP-21375, ADSP-2136x, ADSP-2126x, ADSP-21160, and
ADSP-21161, and with the first generation ADSP-2106x
SHARC processors. The ADSP-21371 shares architectural fea
tures with the ADSP-2126x, ADSP-2136x, and ADSP-2116x
SIMD SHARC processors, as detailed in the following sections.
SIMD Computational Engine
The ADSP-21371 contains two computational processing ele
ments 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 reg
ister file. PEX is always active, and PEY may be enabled by
setting the PEYEN mode bit in the MODE1 register. When this
mode is enabled, the same instruction is executed in both pro
cessing elements, but each processing element operates on
different data. This architecture is efficient at executing math
intensive DSP algorithms.
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 band
width 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 ele-
• On-chip mask-programmable ROM (4M bit)
• JTAG test access port
• DMA controller
• Digital applications interface that includes four precision
• Digital peripheral interface that includes two timers, one
clock generators (PCG), an S/PDIF-compatible digital
audio receiver/transmitter, an input data port (IDP), eight
serial ports, eight serial interfaces, a 20-bit parallel input
port (PDAP), and a flexible signal routing unit (DAI SRU).
UART, two serial peripheral interfaces (SPI), a 2-wire
interface (TWI), and a flexible signal routing unit
(DPI SRU).
on Page 1
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