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TMS320C6670 Datasheet(PDF) 12 Page - Texas Instruments |
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TMS320C6670 Datasheet(HTML) 12 Page - Texas Instruments |
12 / 206 page 12 Copyright 2010 Texas Instruments Incorporated SPRS689—November 2010 Multicore Fixed and Floating-Point System-on-Chip TMS320C6670 www.ti.com 1.1 KeyStone Architecture TI’s KeyStone Multicore Architecture provides a high performance structure for integrating RISC and DSP cores with application specific coprocessors and I/O. KeyStone is the first of its kind that provides adequate internal bandwidth for nonblocking access to all processing cores, peripherals, coprocessors, and I/O. This is achieved with four main hardware elements: Multicore Navigator, TeraNet, Multicore Shared Memory Controller, and HyperLink. Multicore Navigator is an innovative packet-based manager that controls 8192 queues. When tasks are allocated to the queues, Multicore Navigator provides hardware-accelerated dispatch that directs tasks to the appropriate available hardware. The packet-based system on a chip (SoC) uses the two Tbps capacity of the TeraNet switched central resource to move packets. The Multicore Shared Memory Controller enables processing cores to access shared memory directly without drawing from TeraNet’s capacity, so packet movement cannot be blocked by memory access. HyperLink provides a 50-Gbps chip-level interconnect that allows SoCs to work in tandem. Its low-protocol overhead and high throughput make Hyperlink an ideal interface for chip-to-chip interconnections. Working with Multicore Navigator, HyperLink dispatches tasks to tandem devices transparently and executes tasks as if they are running on local resources. 1.2 Device Description The TMS320C6670 Communications Infrastructure KeyStone SoC is a member of the C66xx SoC family based on TI's new KeyStone Multicore SoC Architecture designed specifically for high performance wireless infrastructure applications. The C6670 provides a very high performance macro basestation platform for developing all wireless standards including WCDMA/HSPA/HSPA+, TD-SCDMA, GSM, TDD-LTE, FDD-LTE, and WiMAX. The C6670 also sets a new standard for clock speed with operating frequencies up to 1.2 GHz. TI's SoC architecture provides a programmable platform integrating various subsystems (C66x cores, IP network, radio layers 1 and 2, and transport processing) and uses a queue-based communication system that allows the SoC resources to operate efficiently and seamlessly. This unique SoC architecture also includes a TeraNet Switch that enables the wide mix of system elements, from programmable cores to dedicated coprocessors and high speed IO, to each operate at maximum efficiency with no blocking or stalling. TI's new C66x core launches a new era of DSP technology by combining fixed point and floating point computational capability in the processor without sacrificing speed, size, or power consumption. The raw computational performance is an industry-leading 32 GMACS/core and 16 Gflops/core (@ 1.2 GHz operating frequency). The C66x is also 100% backward compatible with software for C64x+ devices. The C66x core incorporates 90 new instructions targeted for floating point (FPi) and vector math oriented (VPi) processing. These enhancements yield tremendous performance improvements in multi-antenna 4.8G signal processing for algorithms like MIMO and beamforming. The C6670 contains many wireless basestation coprocessors to offload the bulk of the processing demands of layer 1 and layer 2 base station processing. This keeps the cores free for receiver algorithms and other differentiating functions. The SoC contains numerous copies of key coprocessors such as the FFTC and TCP3d. The architectural elements of the SoC (Multicore Navigator) ensure that all the bits are processed without any CPU intervention or overhead, allowing the system to make optimal use of its resources. TI's scalable multicore SoC architecture solutions provide developers with a range of software- and hardware-compatible devices to minimize development time and maximize reuse across all base station platforms from Femto to Macro. |
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