FMC645 www.4dsp.com FMC645 C6455 Fixed-Point DSP FMC Description The FMC645 is a Digital Signal Processor FMC daughter card based on the Texas Features Instruments TMS320C6455 device. The FMC645 daughter card is mechanically • 1.2GHz TMS320C6455 DSP and electrically compliant to FMC standard (ANSI/VITA 57.1). The card has a • Fully conduction cooled compliant high-pin count connector and can be used in a conduction cooled environment. • VITA 57.1-2010 compliant The card is equipped with power supply and temperature monitoring and offers • 1.5V to 3.3V VADJ operation several power-down modes to switch off unused functions and peripheral interfaces. • Onboard 512MB DDR2 memory Several Gigabit differential pairs from the FMC connector are used to implement • 16-pins debug/emulator header option a PCIe and Serial Rapid IO interface between the FMC and the carrier. (press-fit) Many other digital I/O interfaces are also made available to the FMC carrier. • GPIO header option (press-fit) Because of the use of level translators between the DSP and the FMC connector • HPC (High-Pin Count) 400-pin connector the FMC645 can fully operate on any VITA 57.1 compliant carrier. • MIL-I-46058c compliant (optional) A 512MB DDR2 SDRAM on-board bank directly connects to the DSP thus providing the FMC645 with the memory resources required for demanding Applications signal processing applications. • Software defined radio legacy DSP applications • Video • Telecom infrastructure • Imaging/medical • Wireless infrastructure (WI) TMS320C6455 - DSP - 1.2GHz 64-bit @ 166MHz 125MHz GMII 4 lanes 4 Support • User manual McBSP (2) • Advanced reference design using micro EMAC HPI Rapid IO UTOPIA GPIO EMU I2C JTAG PCI66 Blaze (C++, VHDL) • Reference ISE project for Virtex 6 (ML605) • Dedicated support forum with private boards 2 Header FMC HPC EMIF A DDR2 MEM Ordering information Build your part number online on the product page http://www.4dsp.com/part_num/fmc645.html 24LC028 32-bit66MHz PCIe 1-lane PCIe x 1 to PCI bridge DDR2 SDRAM www.4dsp.com/FMC645 rev-1.2 Corporate Offices: 4DSP LLC • 3101 Bee Caves Road • Suite 350 Austin • TX 78746 • USA T +1 800 816 1751 • [email protected] European Offices: 4DSP BV • Ondernemingsweg 66f • 2404 HN Alphen a/d Rijn • The Netherlands T +31 (0)172 749749 • [email protected] For Digital Signal Processing design & system integration FMC645 www.4dsp.com TMS320C6455 The TMS320C64x+™ DSPs (including the TMS320C6455 device) are the highest-performance fixed-point DSP generation in the TMS320C6000™ DSP platform. The C6455 device is based on the third-generation high-performance, advanced VelociTI™ very-long-instruction-word (VLIW) architecture developed by Texas Instruments (TI), making these DSPs an excellent choice for applications including video and telecom infrastructure, imaging/medical, and wireless infrastructure (WI). The C64x+™ devices are upward code-compatible from previous devices that are part of the C6000™ DSP platform. Based on 90-nm process technology and with performance of up to 9600 million instructions per second (MIPS) [or 9600 16-bit MMACs per cycle] at a 1.2-GHz clock rate, the C6455 device offers cost-effective solutions to high-performance DSP programming challenges. The C6455 DSP possesses the operational flexibility of high-speed controllers and the numerical capability of array processors. The C64x+ DSP core employs eight functional units, two register files, and two data paths. Like the earlier C6000 devices, two of these eight functional units are multipliers or .M units. Each C64x+ .M unit doubles the multiply throughput versus the C64x core by performing four 16-bit x 16-bit multiply-accumulates (MACs) every clock cycle. Thus, eight 16-bit x 16-bit MACs can be executed every cycle on the C64x+ core. At a 1.2-GHz clock rate, this means 9600 16-bit MMACs can occur every second. Moreover, each multiplier on the C64x+ core can compute one 32-bit x 32-bit MAC or four 8-bit x 8-bit MACs every clock cycle. The TCI6482 device includes Serial RapidIO®. This high bandwidth peripheral dramatically improves system performance and reduces system cost for applications that include multiple DSPs on a board, such as video and telecom infrastructures and medical/imaging. ANSI/VITA 47 Air-cooled Conduction-cooled EAC4 EAC6 ECC1 ECC4 Operating temperature 0C to +55C -40C to +70C 0C to +55C -40C to +85C Storage temperature -40C to +85C -50C to +100C -40C to +85C -55C to +105C Humidity 95% 95% 95% 95% Operating vibration 5Hz to 100Hz PSD = 0.04g2/Hz 5Hz to 100H PSD = 0.04g2/Hz 5 Hz to 100 Hz PSD increasing at 3 dB/octave 5 Hz to 100 Hz PSD increasing at 3 dB/octave 100 Hz to 1000 Hz PSD = 0.04 gs^2/Hz 100 Hz to 1000 Hz PSD = 0.04 gs^2/Hz 100 Hz to 1000 Hz PSD = 0.1 g2/Hz 100 Hz to 1000 Hz PSD = 0.1 g2/Hz 1000 Hz to 2000 Hz PSD decreasing at 6 dB/octave 1000 Hz to 2000 Hz PSD decreasing at 6 dB/octave 1000 Hz to 2000 Hz PSD decreasing at 6 dB/octave 1000 Hz to 2000 Hz PSD decreasing at 6 dB/octave Operating shock 20g, 11 millisecond, half-sine or 20g, 11 millisecond, terminal sawtooth shock pulses in all three axes 20g, 11 millisecond, half-sine or 20g, 11 millisecond, terminal sawtooth shock pulses in all three axes 40g, 11 millisecond shock half-sine or 40g, 11 millisecond, terminal sawtooth shock pulses in all three axes 40g, 11 millisecond shock half-sine or 40g, 11 millisecond, terminal sawtooth shock pulses in all three axes Operating altitude -1500 ft to 60,000 ft (with airflow) -1500 ft to 60,000 ft (with airflow) -1500 ft to 60,000 ft -1500 ft to 60,000 ft Conformal coating Optional Optional Optional Optional Talk to us about your algorithmic requirements, 4DSP is a full-service firmware and software development house. We are a specialist at high performance FFT and Video Processing. Check with us, we may have IP Cores that meet requirements for your application, right off the shelf. rev-1.2 Corporate Offices: 4DSP LLC • 3101 Bee Caves Road • Suite 350 Austin • TX 78746 • USA T +1 800 816 1751 • [email protected] European Offices: 4DSP BV • Ondernemingsweg 66f • 2404 HN Alphen a/d Rijn • The Netherlands T +31 (0)172 749749 • [email protected] For Digital Signal Processing design & system integration