SM320C6415-EP

OBSOLETE

Product details

DSP type 1 C64x DSP (max) (MHz) 500 CPU 32-/64-bit Operating system DSP/BIOS Rating HiRel Enhanced Product Operating temperature range (°C) -55 to 105
DSP type 1 C64x DSP (max) (MHz) 500 CPU 32-/64-bit Operating system DSP/BIOS Rating HiRel Enhanced Product Operating temperature range (°C) -55 to 105
FCBGA (GLZ) 532 529 mm² 23 x 23
  • Highest-Performance Fixed-Point Digital Signal Processors (DSPs)
    • 2-ns Instruction Cycle Time
    • 500-MHz Clock Rate
    • Eight 32-Bit Instructions/Cycle
    • 28 Operations/Cycle
    • 4000 MIPS
    • Fully Software Compatible With C62x™
    • C6414/15/16 Devices Pin Compatible
  • VelociTI.2™ Extensions to VelociTI™ Advanced Very Long Instruction Word
    (VLIW) TMS320C64x™ DSP Core
    • Eight Highly Independent Functional Units With
      VelociTI.2 Extensions With Six ALUs and Two Multipliers
    • Nonaligned Load-Store Architecture
    • 64 32-Bit General-Purpose Registers
    • Instruction Packing Reduces Code Size
    • All Instructions Conditional
  • Instruction Set Features
    • Byte-Addressable (8-/16-/32-/64-Bit Data)
    • 8-Bit Overflow Protection
    • Bit-Field Extract, Set, Clear
    • Normalization, Saturation, Bit-Counting
    • VelociTI.2 Increased Orthogonality
  • Viterbi Decoder Coprocessor (VCP) (C6416)
    • Supports Over 500 7.95-Kbps Adaptive Multi-Rate (AMR)
    • Programmable Code Parameters
  • Turbo Decoder Coprocessor (TCP) (C6416)
    • Supports up to Six 2-Mbps 3GPP (6 Iterations)
    • Programmable Turbo Code and Decoding Parameters
  • L1/L2 Memory Architecture
    • 128K-Bit (16K-Byte) L1P Program Cache
    • 128K-Bit (16K-Byte) L1D Data Cache
    • 8M-Bit (1024K-Byte) L2 Unified Mapped RAM/Cache
  • Two External Memory Interfaces (EMIFs) for 1280M-Byte Addressable External Memory
  • Enhanced Direct-Memory-Access (EDMA) Controller (64 Independent Channels)
  • Host-Port Interface (HPI)
    • User-Configurable Bus Width (32/16 Bit)
  • 32-Bit/33-MHz, 3.3-V PCI Master/Slave Interface Conforms to PCI Specification 2.2 (C6415/C6416)
    • Three PCI Bus Address Registers
    • Four-Wire Serial EEPROM Interface
    • PCI Interrupt Request Under DSP Program Control
    • DSP Interrupt Via PCI I/O Cycle
  • Three Multichannel Buffered Serial Ports (McBSPs)
    • Direct Interface to T1/E1, MVIP, SCSA Framers
    • Up to 256 Channels Each
    • ST-Bus-Switching, AC97-Compatible
    • Serial Peripheral Interface (SPI) Compatible (Motorola)
  • Three 32-Bit General-Purpose Timers
  • Universal Test and Operations Physical Layer
    (PHY) Interface for ATM (UTOPIA) (C6415/C6416)
    • UTOPIA Level 2 Slave ATM Controller
    • 8-Bit Transmit and Receive Operations up to 50 MHz per Direction
    • User-Defined Cell Format up to 64 Bytes
  • Sixteen General-Purpose I/O (GPIO) Pins
  • Flexible Phase-Locked Loop (PLL) Clock Generator
  • IEEE-1149.1 (JTAG(1) Boundary-Scan-Compatible
  • 532-Pin Ball Grid Array (BGA) Package (GLZ Suffix), 0.8-mm Ball Pitch
  • 0.13-µm/6-Level Metal Process (CMOS)
  • 3.3-V I/Os, 1.25-V Internal (500 MHz)
  • SUPPORTS DEFENSE, AEROSPACE, AND MEDICAL APPLICATIONS
    • Controlled Baseline
    • One Assembly/Test Site
    • One Fabrication Site
    • Available in A-Version (–40°C/105°C) and
      S-Version (–55°C/105°C) Temperature Ranges(2)
    • Extended Product Life Cycle
    • Extended Product-Change Notification
    • Product Traceability

(1) IEEE Std 1149.1-1990 Standard Test-Access Port and Boundary Scan Architecture
(2) S-Version currently available for C6415 only. Additional custom temperature ranges available upon request.
(3) Throughout the remainder of this document, the SM320C6414-EP, SM320C6415-EP, and SM320C6416-EP are referred to as SM320C64x or C64x where generic and, where specific, their individual full device part numbers are used or abbreviated as C6414, C6415, or C6416, respectively.
(4) These C64x devices have two EMIFs (64-bit EMIFA and 16-bit EMIFB). The prefix "A" in front of a signal name indicates it is an EMIFA signal whereas a prefix "B" 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 "A" or "B" may be omitted from the signal name.

  • Highest-Performance Fixed-Point Digital Signal Processors (DSPs)
    • 2-ns Instruction Cycle Time
    • 500-MHz Clock Rate
    • Eight 32-Bit Instructions/Cycle
    • 28 Operations/Cycle
    • 4000 MIPS
    • Fully Software Compatible With C62x™
    • C6414/15/16 Devices Pin Compatible
  • VelociTI.2™ Extensions to VelociTI™ Advanced Very Long Instruction Word
    (VLIW) TMS320C64x™ DSP Core
    • Eight Highly Independent Functional Units With
      VelociTI.2 Extensions With Six ALUs and Two Multipliers
    • Nonaligned Load-Store Architecture
    • 64 32-Bit General-Purpose Registers
    • Instruction Packing Reduces Code Size
    • All Instructions Conditional
  • Instruction Set Features
    • Byte-Addressable (8-/16-/32-/64-Bit Data)
    • 8-Bit Overflow Protection
    • Bit-Field Extract, Set, Clear
    • Normalization, Saturation, Bit-Counting
    • VelociTI.2 Increased Orthogonality
  • Viterbi Decoder Coprocessor (VCP) (C6416)
    • Supports Over 500 7.95-Kbps Adaptive Multi-Rate (AMR)
    • Programmable Code Parameters
  • Turbo Decoder Coprocessor (TCP) (C6416)
    • Supports up to Six 2-Mbps 3GPP (6 Iterations)
    • Programmable Turbo Code and Decoding Parameters
  • L1/L2 Memory Architecture
    • 128K-Bit (16K-Byte) L1P Program Cache
    • 128K-Bit (16K-Byte) L1D Data Cache
    • 8M-Bit (1024K-Byte) L2 Unified Mapped RAM/Cache
  • Two External Memory Interfaces (EMIFs) for 1280M-Byte Addressable External Memory
  • Enhanced Direct-Memory-Access (EDMA) Controller (64 Independent Channels)
  • Host-Port Interface (HPI)
    • User-Configurable Bus Width (32/16 Bit)
  • 32-Bit/33-MHz, 3.3-V PCI Master/Slave Interface Conforms to PCI Specification 2.2 (C6415/C6416)
    • Three PCI Bus Address Registers
    • Four-Wire Serial EEPROM Interface
    • PCI Interrupt Request Under DSP Program Control
    • DSP Interrupt Via PCI I/O Cycle
  • Three Multichannel Buffered Serial Ports (McBSPs)
    • Direct Interface to T1/E1, MVIP, SCSA Framers
    • Up to 256 Channels Each
    • ST-Bus-Switching, AC97-Compatible
    • Serial Peripheral Interface (SPI) Compatible (Motorola)
  • Three 32-Bit General-Purpose Timers
  • Universal Test and Operations Physical Layer
    (PHY) Interface for ATM (UTOPIA) (C6415/C6416)
    • UTOPIA Level 2 Slave ATM Controller
    • 8-Bit Transmit and Receive Operations up to 50 MHz per Direction
    • User-Defined Cell Format up to 64 Bytes
  • Sixteen General-Purpose I/O (GPIO) Pins
  • Flexible Phase-Locked Loop (PLL) Clock Generator
  • IEEE-1149.1 (JTAG(1) Boundary-Scan-Compatible
  • 532-Pin Ball Grid Array (BGA) Package (GLZ Suffix), 0.8-mm Ball Pitch
  • 0.13-µm/6-Level Metal Process (CMOS)
  • 3.3-V I/Os, 1.25-V Internal (500 MHz)
  • SUPPORTS DEFENSE, AEROSPACE, AND MEDICAL APPLICATIONS
    • Controlled Baseline
    • One Assembly/Test Site
    • One Fabrication Site
    • Available in A-Version (–40°C/105°C) and
      S-Version (–55°C/105°C) Temperature Ranges(2)
    • Extended Product Life Cycle
    • Extended Product-Change Notification
    • Product Traceability

(1) IEEE Std 1149.1-1990 Standard Test-Access Port and Boundary Scan Architecture
(2) S-Version currently available for C6415 only. Additional custom temperature ranges available upon request.
(3) Throughout the remainder of this document, the SM320C6414-EP, SM320C6415-EP, and SM320C6416-EP are referred to as SM320C64x or C64x where generic and, where specific, their individual full device part numbers are used or abbreviated as C6414, C6415, or C6416, respectively.
(4) These C64x devices have two EMIFs (64-bit EMIFA and 16-bit EMIFB). The prefix "A" in front of a signal name indicates it is an EMIFA signal whereas a prefix "B" 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 "A" or "B" may be omitted from the signal name.

The TMS320C64x™ DSPs (including the SM320C6414-EP, SM320C6415-EP, and SM320C6416-EP devices) are the highest-performance fixed-point DSP generation in the TMS320C6000™ DSP platform. The SM320C64x™ (C64x™) device is based on the second-generation high-performance, advanced VelociTI™ very-long-instruction-word (VLIW) architecture (VelociTI.2™) developed by Texas Instruments (TI), making these DSPs an excellent choice for multichannel and multifunction applications. The C64x™ is a code-compatible member of the C6000™ DSP platform.

With performance of up to 4000 million instructions per second (MIPS) at a clock rate of 500 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 C64x DSP core processor has 64 general-purpose registers of 32-bit word length and eight highly independent functional units – 2 multipliers for a 32-bit result and 6 arithmetic logic units (ALUs) – with VelociTI.2 extensions. The VelociTI.2 extensions in the eight functional units include new instructions to accelerate the performance in key applications and extend the parallelism of the VelociTI architecture. The C64x can produce four 32-bit multiply-accumulates (MACs) per cycle for a total of 2400 million MACs per second (MMACS), or eight 8-bit MACs per cycle for a total of 4800 MMACS. The C64x DSP also has application-specific hardware logic, on-chip memory, and additional on-chip peripherals similar to the other C6000 DSP platform devices.

The C6416 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 500 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 36 384-Kbps or 6 2-Mbps turbo encoded channels (assuming 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 (L1P) cache is a 128K-bit direct-mapped cache and the level 1 data (L1D) cache is a 128K-bit 2-way set-associative cache. The level 2 memory/cache (L2) consists of an 8M-bit 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 3 multichannel buffered serial ports (McBSPs), an 8-bit universal test and operations PHY interface for asynchronous transfer mode (ATM) slave (UTOPIA slave) port (C6415/C6416 only), 3 32-bit general-purpose timers, a user-configurable 16-bit or 32-bit host-port interface (HPI16/HPI32), a peripheral component interconnect (PCI) (C6415/C6416 only), a general-purpose input/output port (GPIO) with 16 GPIO pins, and two glueless external memory interfaces (64-bit EMIFA and 16-bit EMIFB), both of which are capable of interfacing to synchronous and asynchronous memories and peripherals.

The C64x has a complete set of development tools that includes an advanced C compiler with C64x-specific enhancements, an assembly optimizer to simplify programming and scheduling, and a Windows™ debugger interface for visibility into source code execution.(3)(4)

The TMS320C64x™ DSPs (including the SM320C6414-EP, SM320C6415-EP, and SM320C6416-EP devices) are the highest-performance fixed-point DSP generation in the TMS320C6000™ DSP platform. The SM320C64x™ (C64x™) device is based on the second-generation high-performance, advanced VelociTI™ very-long-instruction-word (VLIW) architecture (VelociTI.2™) developed by Texas Instruments (TI), making these DSPs an excellent choice for multichannel and multifunction applications. The C64x™ is a code-compatible member of the C6000™ DSP platform.

With performance of up to 4000 million instructions per second (MIPS) at a clock rate of 500 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 C64x DSP core processor has 64 general-purpose registers of 32-bit word length and eight highly independent functional units – 2 multipliers for a 32-bit result and 6 arithmetic logic units (ALUs) – with VelociTI.2 extensions. The VelociTI.2 extensions in the eight functional units include new instructions to accelerate the performance in key applications and extend the parallelism of the VelociTI architecture. The C64x can produce four 32-bit multiply-accumulates (MACs) per cycle for a total of 2400 million MACs per second (MMACS), or eight 8-bit MACs per cycle for a total of 4800 MMACS. The C64x DSP also has application-specific hardware logic, on-chip memory, and additional on-chip peripherals similar to the other C6000 DSP platform devices.

The C6416 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 500 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 36 384-Kbps or 6 2-Mbps turbo encoded channels (assuming 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 (L1P) cache is a 128K-bit direct-mapped cache and the level 1 data (L1D) cache is a 128K-bit 2-way set-associative cache. The level 2 memory/cache (L2) consists of an 8M-bit 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 3 multichannel buffered serial ports (McBSPs), an 8-bit universal test and operations PHY interface for asynchronous transfer mode (ATM) slave (UTOPIA slave) port (C6415/C6416 only), 3 32-bit general-purpose timers, a user-configurable 16-bit or 32-bit host-port interface (HPI16/HPI32), a peripheral component interconnect (PCI) (C6415/C6416 only), a general-purpose input/output port (GPIO) with 16 GPIO pins, and two glueless external memory interfaces (64-bit EMIFA and 16-bit EMIFB), both of which are capable of interfacing to synchronous and asynchronous memories and peripherals.

The C64x has a complete set of development tools that includes an advanced C compiler with C64x-specific enhancements, an assembly optimizer to simplify programming and scheduling, and a Windows™ debugger interface for visibility into source code execution.(3)(4)

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Type Title Date
* Data sheet SM320C6414-EP, SM320C6415-EP, SM320C6416-EP datasheet (Rev. D) 19 Sep 2008
* Errata TMS320C6414/C6415/C6416 Silicon Errata (Silicon Rev. 1.0,1.01,1.02,1.03,1.1,2.0) (Rev. T) 01 Aug 2007

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