TMS320TCI100Q Datasheet, PDF(5/137 Page) Texas Instruments

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TMS320TCI100Q Datasheet, PDF (5/137 Pages) Texas Instruments – FIXED-POINT DIGTAL SIGNAL PROCESSOR

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TMS320TCI100Q

FIXEDÄPOINT DIGITAL SIGNAL PROCESSOR

SPRS251E â JUNE 2004 â REVISED JUNE 2006

description

The TMS320C64xï£ª DSPs (including the TMS320TCI100, TMS320TCI100Q, and TMS320C641xT devices)

are the highest-performance fixed-point DSP generation in the TMS320C6000ï£ª DSP platform. The

TMS320C64xï£ª (C64xï£ªâ ) device is based on the second-generation high-performance, advanced VelociTIï£ª

very-long-instruction-word (VLIW) architecture (VelociTI.2ï£ª) developed by Texas Instruments (TI), making

these DSPs an excellent choice for wireless infrastructure applications. The C64xï£ª is a code-compatible

member of the C6000ï£ª DSP platform.

With performance of up to 6800 million instructions per second (MIPS) at a clock rate of 850 MHz, the C64x

devices offer cost-effective solutions to high-performance DSP programming challenges. The C64x DSPs

possess the operational flexibility of high-speed controllers and the numerical capability of array processors.

The C64xï£ª DSP core processor has 64 general-purpose registers of 32-bit word length and eight highly

independent functional unitsâtwo multipliers for a 32-bit result and six arithmetic logic units (ALUs)â with

VelociTI.2ï£ª extensions. The VelociTI.2ï£ª extensions in the eight functional units include new instructions to

accelerate the performance in key applications and extend the parallelism of the VelociTIï£ª architecture. The

C64x can produce four 16-bit multiply-accumulates (MACs) per cycle for a total of 3400 million MACs per

second (MMACS), or eight 8-bit MACs per cycle for a total of 6800 MMACS. The C64x DSP also has

application-specific hardware logic, on-chip memory, and additional on-chip peripherals similar to the other

C6000ï£ª DSP platform devices.

The TCI100Q device has two high-performance embedded coprocessors [Viterbi Decoder Coprocessor (VCP)

and Turbo Decoder Coprocessor (TCP)] that significantly speed up channel-decoding operations on-chip. The

VCP operating at CPU clock divided-by-4 can decode over 708 7.95-Kbps adaptive multi-rate (AMR) [K = 9,

R = 1/3] voice channels. The VCP supports constraint lengths K = 5, 6, 7, 8, and 9, rates R = 1/2, 1/3, and 1/4,

and flexible polynomials, while generating hard decisions or soft decisions. The TCP operating at CPU clock

divided-by-2 can decode up to forty-two 384-Kbps or eight 2-Mbps turbo encoded channels (assuming 6

iterations). The TCP implements the max*log-map algorithm and is designed to support all polynomials and

rates required by Third-Generation Partnership Projects (3GPP and 3GPP2), with fully programmable frame

length and turbo interleaver. Decoding parameters such as the number of iterations and stopping criteria are

also programmable. Communications between the VCP/TCP and the CPU are carried out through the EDMA

controller.

The C64x uses a two-level cache-based architecture and has a powerful and diverse set of peripherals. The

Level 1 program cache (L1P) is a 128-Kbit direct mapped cache and the Level 1 data cache (L1D) is a 128-Kbit

2-way set-associative cache. The Level 2 memory/cache (L2) consists of an 8-Mbit memory space that is

shared between program and data space. L2 memory can be configured as mapped memory or combinations

of cache (up to 256K bytes) and mapped memory. The peripheral set includes three multichannel buffered serial

ports (McBSPs); an 8-bit Universal Test and Operations PHY Interface for Asynchronous Transfer Mode (ATM)

Slave [UTOPIA Slave] port; three 32-bit general-purpose timers; a user-configurable 16-bit or 32-bit host-port

interface (HPI16/HPI32); a peripheral component interconnect (PCI); a general-purpose input/output port

(GPIO) with 16 GPIO pins; and two glueless external memory interfaces (64-bit EMIFA and 16-bit EMIFBâ¡), both

of which are capable of interfacing to synchronous and asynchronous memories and peripherals.

The C64x has a complete set of development tools which includes: an advanced C compiler with C64x-specific

enhancements, an assembly optimizer to simplify programming and scheduling, and a Windowsï£ª debugger

interface for visibility into source code execution.

TMS320C6000, C64x, and C6000 are trademarks of Texas Instruments.

Windows is a registered trademark of the Microsoft Corporation.

Other trademarks are the property of their respective owners.

â Throughout the remainder of this document, the TMS320TCI100Q shall be referred to as TMS320C64x or C64x where generic, and where

specific, individual full device part numbers (i.e., TMS320TCI100Q) will be used or abbreviated as TCI100Q.

â¡ These C64xï£ª devices have two EMIFs (64-bit EMIFA and 16-bit EMIFB). The prefix âAâ in front of a signal name indicates it is an EMIFA signal

whereas a prefix âBâ in front of a signal name indicates it is an EMIFB signal. Throughout the rest of this document, in generic EMIF areas of

discussion, the prefix âAâ or âBâ may be omitted from the signal name.

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