ADEE 275
Abstract: T75 TYPE 2000 pna60
Text: Advance Data Sheet April 2002 DSP16411 Digital Signal Processor 1 Features Two IEEE 1149.1 test ports JTAG boundary scan Twin DSP16000 dual-MAC cores perform up to 960 million MACs per second at 240 MHz Low power: — 1.0 V internal supply for power efficiency
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DSP16411
DSP16000
DSP16410B
DSP16410CG
ADEE 275
T75 TYPE 2000
pna60
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ADEE 275
Abstract: 16411A1 MARKING CODE ADEE bas marking code a6 DA02-001WINF pna60 ADEE switch t85 M1641
Text: Advisory December 2002 DSP16411 Speed and Core Voltage Migration Overview Changes This document describes the migration of the Agere Systems DSP16411 from a core supply voltage VDD1, VDD1A of 1.0 V nominal to 1.2 V nominal. Associated with this increase in core supply voltage is a corresponding increase in operating frequency. Otherwise,
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DSP16411
DS02-037WINF,
DSP16410B
DSP16410CG
ADEE 275
16411A1
MARKING CODE ADEE
bas marking code a6
DA02-001WINF
pna60
ADEE
switch t85
M1641
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SRUN10
Abstract: No abstract text available
Text: Data Sheet March 2003 DSP16411 Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 1140 million MACs per second at 285 MHz ! Low power: — 1.2 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility !
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DSP16411
208-ball
DSP16000
SRUN10
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CI 4017
Abstract: Agere 217 PBGA Agere outline drawings 217 pbga DSP16000 DSP16410CG DSP16411
Text: Data Sheet May 2003 DSP16411 Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 1140 million MACs per second at 285 MHz ! Low power: — 1.2 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility ! 322K x 16 on-chip RAM
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DSP16411
DSP16000
16-bit
CI 4017
Agere 217 PBGA
Agere outline drawings 217 pbga
DSP16410CG
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PDF
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DSP16411
Abstract: DSP16000 322k DSP16210 DSP16410 DSP16410C
Text: Product Brief DSP16411 Digital Signal Processor Mixed-Format Codecs for Non-Linear Editing, Video Server, and VTR Applications F e at u r e s Please refer to Figure 1. n Twin DSP16000 dual-MAC multiply and accumulate cores for high throughput: n — 1140 MMACs (million multiply
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DSP16411
DSP16000
16-bit
32-bit
PB03-049WINF
PB03-039WINF)
322k
DSP16210
DSP16410
DSP16410C
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Untitled
Abstract: No abstract text available
Text: Product Brief February 2003 DSP16411 Digital Signal Processor Enhancements • Enhancements from the DSP16410C to the DSP16411: — Maximum processor speed has increased from 195 MHz to 285 MHz — Memory has increased from 96K x 16 per core to 160K x 16 per core
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DSP16411
DSP164XX
208-ball
DSP16210
DSP16410
DSP16410C
DSP16411:
PB03-049WINF
PB03-039WINF)
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16411A1
Abstract: MARKING CODE ADEE ED9 marking diode Marking a4v DSP16000 marking code A6V DSP16410 DSP16411 TDO01 DSP16K
Text: Advisory December 2002 DSP16411 SEMI Design Exception Overview Agere Systems’ DSP16411 is the next-generation digital signal processor based on the DSP16000 core architecture offering increased speed and on-chip memory. The system and external memory interface
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DSP16411
DSP16000
DSP16410B
DSP16410CG
DSP16411
16411A1
MARKING CODE ADEE
ED9 marking diode
Marking a4v
marking code A6V
DSP16410
TDO01
DSP16K
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PDF
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322k
Abstract: DSP16210 DSP16000
Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.
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DSP16000
DSP16410B
DSP16410CG
DSP16411
322k
DSP16210
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DSP16000
Abstract: DSP16000 FEATURES DSP16210 DSP16410 DSP16411 DSP16000 architecture DSP16000 instruction set
Text: Product Brief DSP16410 Digital Signal Processor F e at u r e s n n n n Two DSP16000 dual-MAC multiply and accumulate cores for high throughput with high code density: — 780 MMACs (million multiply and accumulates) per second at 195 MHz. — 560 MMACs (million multiply and accumulates)
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DSP16410
DSP16000
16-bit
PB06-003CMPR-2
PB06-003CMPR-1)
DSP16000 FEATURES
DSP16210
DSP16410
DSP16411
DSP16000 architecture
DSP16000 instruction set
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saf7730
Abstract: saf7730 audio wind energy simulink matlab turbo codes matlab simulation program Philips SAF7730 64 point FFT radix-4 VHDL documentation CW4512 DMC550 SP1403 saf77
Text: THE LIST OF RESOURCES SUPPORTING DIGITALSIGNAL PROCESSING CONTINUES TO EXPAND. CHECK OUT THE LATEST ADDITIONS. By Robert Cravotta, Technical Editor www.edn.com Welcome to the 2004 edition of the EDN DSP directory. Despite some companies dropping out of the DSP market, whether due to
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SAB 3210
Abstract: DSP16410 DSP16000 DSP16411 DSP16210 DSP16411 architecture
Text: Product Brief February 2004 DSP16410 Digital Signal Processor Features • ■ ■ ■ Two DSP16000 dual-MAC multiply and accumulate cores for high throughput with high code density: — 780 MMACs (million multiply and accumulates) per second at 195 MHz.
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DSP16410
DSP16000
16-bit
PB04-050WINF
PN99-052WDSP)
SAB 3210
DSP16411
DSP16210
DSP16411 architecture
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