x
SMJ320C40KGDD
FLOATINGPOINT DIGITAL SIGNAL PROCESSOR
KNOWN GOOD DIES
SGUS052 APRIL 2004
1
POST OFFICE BOX 1443
HOUSTON, TEXAS 772511443
D SMJ: QML Processing to MILPRF38535
D Operating Temperature Ranges:
Military (M) 55
°C to 125°C
Commercial (C) 25
°C to 85°C
Commercial (L) 0
°C to 70°C
D Highest Performance Floating-Point Digital
Signal Processor (DSP)
C40-50:
40-ns Instruction Cycle Time:
50 MFLOPS, 25 MIPS, 275 MOPS,
320 MBps
C40-40:
50-ns Instruction Cycle Time:
40 MFLOPS, 20 MIPS, 220 MOPS,
256 MBps
D Six Communications Ports
D 6-Channel Direct Memory Access (DMA)
Coprocessor
D Single-Cycle Conversion to and From
IEEE-745 Floating-Point Format
D Single Cycle 1/x, 1/
D Source-Code Compatible With SMJ320C30
D Validated Ada Compiler
D Single-Cycle 40-Bit Floating-Point,
32-Bit Integer Multipliers
D 12 40-Bit Registers, 8 Auxiliary Registers,
14 Control Registers, and 2 Timers
D IEEE Standard 1149.1 Test-Access Port
(JTAG)
D Two Identical External Data and Address
Buses Supporting Shared Memory Systems
and High Data-Rate, Single-Cycle
Transfers:
High Port-Data Rate of 100 MBytes/s
(Each Bus)
16G-Byte Continuous
Program/Data/Peripheral Address Space
Memory-Access Request for Fast,
Intelligent Bus Arbitration
Separate Address-, Data-, and
Control-Enable Pins
Four Sets of Memory-Control Signals
Support Different Speed Memories in
Hardware
D Fabricated Using Enhanced Performance
Implanted CMOS (EPIC
) Technology by
Texas Instruments (TI
)
D Separate Internal Program, Data, and DMA
Coprocessor Buses for Support of Massive
Concurrent Input/Output (I/O) of Program
and Data Throughput, Maximizing
Sustained Central Processing Unit (CPU)
Performance
D On-Chip Program Cache and
Dual-Access/Single-Cycle RAM for
Increased Memory-Access Performance
512-Byte Instruction Cache
8K Bytes of Single-Cycle Dual-Access
Program or Data RAM
ROM-Based Bootloader Supports
Program Bootup Using 8-, 16-, or 32-Bit
Memories Over Any One of the
Communications Ports
description
The SMJ320C40KGD DSP is a 32-bit, floating-point processor manufactured in 0.72-
m, double-level metal
CMOS technology. It is the fourth generation of DSPs from Texas Instruments, and it is the world’s first DSP
designed for parallel processing. The on-chip parallel processing capabilities of the C40 make the floating-point
performance required by many applications achievable and cost-effective.
The SMJ320C40 is the first DSP with on-chip communication ports for processor-to-processor communication
using simple communication software with no external hardware. This allows connectivity with no external glue
logic. The communication ports remove I/O bottlenecks, and the independent smart-DMA coprocessor is able
to handle the CPU I/O requirements.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of Texas Instruments
standard warranty. Production processing does not necessarily include
testing of all parameters.
Copyright
2004, Texas Instruments Incorporated
IEEE Standard 1149.11990 Standard Test-Access Port and Boundary-Scan Architecture
EPIC and TI are trademarks of Texas Instruments Incorporated.
On products compliant to MILPRF38535, all parameters are tested
unless otherwise noted. On all other products, production
processing does not necessarily include testing of all parameters.