Analog Devices ADSP-TS201S - Manual
Analog Devices ADSP-TS201S – Manual, read for free online in PDF format. We hope this helps you resolve any issues you may have. If you have further questions, please contact us through the contact form.
Table of Contents:
- Page 2 – TABLE OF CONTENTS; Designing an Emulator-Compatible; REVISION HISTORY; Applied Corrections to:
- Page 3 – GENERAL DESCRIPTION; Table 1; Benchmark; K point complex FFT; Cache preloaded; I/O DMA transfer rate; Figure 2. ADSP-TS201S Single-Processor System with External SDRAM
- Page 4 – DUAL COMPUTE BLOCKS; Static Superscalar is a trademark of Analog Devices, Inc.
- Page 5 – PROGRAM SEQUENCER; Interrupt Controller; DSP MEMORY; Figure 3
- Page 6 – INTERNAL S PACE; GLOBAL SPACE
- Page 7 – Host Interface; Multiprocessor Interface; Figure 4; SDRAM Controller; DMA CONTROLLER
- Page 8 – Figure 4. ADSP-TS201S Shared Memory Multiprocessing System
- Page 9 – RESET AND BOOTING; Table 2; CLOCK DOMAINS; Figure 5; Table 2. No Boot, Run from Memory Addresses; Figure 5. Clock Domains
- Page 10 – POWER DOMAINS; FILTERING REFERENCE VOLTAGE AND CLOCKS; Figure 6; DEVELOPMENT TOOLS; Filtering Scheme
- Page 11 – EVALUATION KIT; Analog Devices offers a range of EZ-KIT Lite; ADDITIONAL INFORMATION; SHARC Processor Hardware Reference; EZ-Kit Lite is a registered trademark of Analog Devices, Inc.
- Page 12 – PIN FUNCTION DESCRIPTIONS; Table 3. Pin Definitions—Clocks and Reset; Table 4; For more information, see Clock
- Page 13 – Table 5. Pin Definitions—External Port Bus Controls; Reset and Booting on
- Page 14 – Table 6. Pin Definitions—External Port Arbitration; Electrical Characteristics on Page 22
- Page 15 – Table 7. Pin Definitions—External Port DMA/Flyby
- Page 16 – Table 8. Pin Definitions—External Port SDRAM Controller; Figure 3 on Page 6
- Page 17 – Table 9. Pin Definitions—JTAG Port; Reset and; See the reference
- Page 18 – Table 11. Pin Definitions—Link Ports; Electrical Characteristics on
- Page 20 – STRAP PIN FUNCTION DESCRIPTIONS; Table 16. Pin Definitions—I/O Strap Pins
- Page 21 – ADSP-TS201S—SPECIFICATIONS; Link Port Low Voltage, Differential-Signal; OPERATING CONDITIONS; Ordering Guide on Page 46
- Page 22 – ELECTRICAL CHARACTERISTICS; Table 18. Maximum Duty Cycle for Input Transient Voltage; Parameter Description; Applies to output and bidirectional pins.
- Page 23 – PACKAGE INFORMATION; The information presented in; ABSOLUTE MAXIMUM RATINGS; Figure 8. Typical Package Brand; Table 19. Package Brand Information; Table 20. Absolute Maximum Ratings; Applies to 10% transient duty cycle. For other duty cycles see
- Page 24 – TIMING SPECIFICATIONS; General AC Timing; For output specifications on FLAG3–0 pins, see; ) divided by the system clock ratio
- Page 25 – System clock transition times apply to minimum SCLK cycle time (t
- Page 26 – Timing Requirement; Timing Requirements; Switching Characteristic; Applies after V
- Page 27 – Table 27. Normal Reset Timing; RST_IN Deasserted After Strap Pins Stable; Figure 14. Normal Reset Timing; On-chip DRAM Refresh Period; ADSP-TS201 TigerSHARC Processor Programming Reference
- Page 29 – Reset and Booting on Page 9; Figure 15. General AC Parameters Timing; Name
- Page 30 – Table 30. Link Port LVDS Transmit Electrical Characteristics; Figure 16. Link Ports—Transmit Electrical Characteristics
- Page 31 – Link Port—Data Out Timing; with; Table 32. Link Port—Data Out Timing; Outputs
- Page 34 – Link Port—Data In Timing; Table 33. Link Port—Data In Timing; Inputs; Timing is relative to the 0 differential voltage (V; Figure 24. Link Ports—Last Received Quad Word
- Page 36 – OUTPUT DRIVE CURRENTS; through; Figure 26. Typical Drive Currents at Strength 0; Figure 28. Typical Drive Currents at Strength 2
- Page 37 – TEST CONDITIONS; Output Disable Time; Figure 31. Typical Drive Currents at Strength 5
- Page 38 – Output Enable Time; Capacitive Loading; Output Disable Time on; vs. Load Capacitance at Strength 0; vs. Load Capacitance at Strength 1
- Page 39 – vs. Load Capacitance at Strength 7
- Page 40 – ENVIRONMENTAL CONDITIONS; environmental conditions specified in the; Thermal Characteristics; data sheet specification is not; Parameter; C/W for 0 m/s is for vertically mounted boards. For horizontally
- Page 41 – shows a summary of pin configurations for the; For a more detailed pin summary diagram, see the
- Page 44 – . For more information on SCLK and SCLK_V; on the Analog Devices website (
- Page 45 – OUTLINE DIMENSIONS; SURFACE MOUNT DESIGN; is provided as an aid to PCB design. For industry-; DETAIL A; Table 36. BGA Data for Use with Surface Mount Design
- Page 46 – ORDERING GUIDE; Model; Represents case temperature.; Operating Voltage
•
a
TigerSHARC and the TigerSHARC logo are registered trademarks of Analog Devices, Inc.
TigerSHARC
®
Embedded Processor
ADSP-TS201S
Rev. C
Information furnished by Analog Devices is believed to be accurate and reliable.
However, no responsibility is assumed by Analog Devices for its use, nor for any
infringements of patents or other rights of third parties that may result from its use.
Specifications subject to change without notice. No license is granted by implication
or otherwise under any patent or patent rights of Analog Devices. Trademarks and
registered trademarks are the property of their respective owners.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 U.S.A.
Tel: 781.329.4700
Fax: 781.461.3113
©
2006 Analog Devices, Inc. All rights reserved.
KEY FEATURES
Up to 600 MHz, 1.67 ns instruction cycle rate
24M bits of internal—on-chip—DRAM memory
25 mm × 25 mm (576-ball) thermally enhanced ball grid
array package
Dual-computation blocks—each containing an ALU, a
multiplier, a shifter, a register file, and a communications
logic unit (CLU)
Dual-integer ALUs, providing data addressing and pointer
manipulation
Integrated I/O includes 14-channel DMA controller, external
port, four link ports, SDRAM controller, programmable
flag pins, two timers, and timer expired pin for system
integration
1149.1 IEEE-compliant JTAG test access port for on-chip
emulation
Single-precision IEEE 32-bit and extended-precision 40-bit
floating-point data formats and 8-, 16-, 32-, and 64-bit
fixed-point data formats
KEY BENEFITS
Provides high performance static superscalar DSP
operations, optimized for telecommunications
infrastructure and other large, demanding multiprocessor
DSP applications
Performs exceptionally well on DSP algorithm and I/O
benchmarks (see benchmarks in
)
Supports low overhead DMA transfers between internal
memory, external memory, memory-mapped peripherals,
link ports, host processors, and other
(multiprocessor) DSPs
Eases DSP programming through extremely flexible instruc-
tion set and high-level-language-friendly DSP architecture
Enables scalable multiprocessing systems with low commu-
nications overhead
Provides on-chip arbitration for glueless multiprocessing
Figure 1. Functional Block Diagram
T
L0
8
4
8
4
8
4
8
4
8
4
8
4
8
4
8
4
IN
OUT
HOST
MULTI-
PROC
C-BUS
ARB
DATA
64
LINK PORTS
JTAG PORT
EXTERNAL
PORT
ADDR
32
6
SOC BUS
DMA
JTAG
SDRAM
CTRL
EXT DMA
REQ
J-BUS DATA
IAB
PC
BTB
ADDR
FETCH
PROGRAM
SEQUENCER
COMPUTATIONAL BLOCKS
J-BUS ADDR
K-BUS DATA
K-BUS ADDR
I-BUS DATA
I-BUS ADDR
S-BUS DATA
S-BUS ADDR
INTEGER
K ALU
INTEGER
J ALU
32
32
32-BIT × 32-BIT
DATA ADDRESS GENERATION
X
REGISTER
FILE
32-BIT × 32-BIT
MUL
ALU
SHIFT
CLU
DAB
128
128
DAB
128
128
MEMORY BLOCKS
A
D
24M BITS INTERNAL MEMORY
4 × CROSSBAR CONNECT
(PAGE CACHE)
A
D
A
D
A
D
SOC
I/F
Y
REGISTER
FILE
32-BIT × 32-BIT
MUL
ALU
SHIFT
CLU
L1
IN
OUT
L2
IN
OUT
L3
IN
OUT
CTRL
8
CTRL
10
32
128
32
128
32
128
21
128
4
32-BIT × 32-BIT
"Loading the manual" means you need to wait until the file loads and becomes available for online reading. Some manuals are very large, and the time they take to appear depends on your internet speed.
Summary
Rev. C | Page 2 of 48 | December 2006 ADSP-TS201S TABLE OF CONTENTS General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Dual Compute Blocks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Da...
ADSP-TS201S Rev. C | Page 3 of 48 | December 2006 GENERAL DESCRIPTION The ADSP-TS201S TigerSHARC processor is an ultrahigh per-formance, static superscalar processor optimized for large signal processing tasks and communications infrastructure. The DSP combines very wide memory widths with dual comp...
Rev. C | Page 4 of 48 | December 2006 ADSP-TS201S The TigerSHARC DSP uses a Static Superscalar TM † architecture. This architecture is superscalar in that the ADSP-TS201S pro-cessor’s core can execute simultaneously from one to four 32-bit instructions encoded in a very large instruction word (VLIW)...
