XC5VLX50T-1FFG665C Xilinx Inc, XC5VLX50T-1FFG665C Datasheet - Page 8
XC5VLX50T-1FFG665C
Manufacturer Part Number
XC5VLX50T-1FFG665C
Description
FPGA, VIRTEX-5 LXT, 50K, 665FCBGA
Manufacturer
Xilinx Inc
Series
Virtex™-5 LXTr
Datasheets
1.XC5VLX30-1FFG324C.pdf
(91 pages)
2.XC5VLX30-1FFG324C.pdf
(13 pages)
3.XC5VLX30-1FFG324C.pdf
(385 pages)
Specifications of XC5VLX50T-1FFG665C
No. Of Logic Blocks
7200
Family Type
Virtex-5
No. Of Speed Grades
1
Total Ram Bits
2211840
No. Of I/o's
360
Clock Management
DCM, PLL
I/o Supply Voltage
3.3V
Operating Frequency Max
550MHz
Number Of Logic Elements/cells
46080
Number Of Labs/clbs
3600
Number Of I /o
360
Voltage - Supply
0.95 V ~ 1.05 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
665-BBGA, FCBGA
Core Supply Voltage Range
1V
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
HW-V5-ML561-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5-ML550-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5-ML521-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5GBE-DK-UNI-G - KIT DEV V5 LXT GIGABIT ETHERNET122-1508 - EVALUATION PLATFORM VIRTEX-5
Number Of Gates
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
122-1565
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Virtex-5 Family Overview
Global Clocking
The CMTs and global-clock multiplexer buffers provide a
complete solution for designing high-speed clock networks.
Each CMT contains two DCMs and one PLL. The DCMs
and PLLs can be used independently or extensively
cascaded. Up to six CMT blocks are available, providing up
to eighteen total clock generator elements.
Each DCM provides familiar clock generation capability. To
generate deskewed internal or external clocks, each DCM
can be used to eliminate clock distribution delay. The DCM
also provides 90°, 180°, and 270° phase-shifted versions of
the output clocks. Fine-grained phase shifting offers higher-
resolution phase adjustment with fraction of the clock period
increments. Flexible frequency synthesis provides a clock
output frequency equal to a fractional or integer multiple of
the input clock frequency.
To augment the DCM capability, Virtex-5 FPGA CMTs also
contain a PLL. This block provides reference clock jitter
filtering and further frequency synthesis options.
Virtex-5 devices have 32 global-clock MUX buffers. The
clock tree is designed to be differential. Differential clocking
helps reduce jitter and duty cycle distortion.
DSP48E Slices
DSP48E slice resources contain a 25 x 18 two’s
complement multiplier and a 48-bit
adder/subtacter/accumulator. Each DSP48E slice also
contains extensive cascade capability to efficiently
implement high-speed DSP algorithms.
The Virtex-5 FPGA DSP48E slice features are further
discussed in Virtex-5 FPGA XtremeDSP Design
Considerations.
Routing Resources
All components in Virtex-5 devices use the same
interconnect scheme and the same access to the global
routing matrix. In addition, the CLB-to-CLB routing is
designed to offer a complete set of connectivity in as few
hops as possible. Timing models are shared, greatly
improving the predictability of the performance for high-
speed designs.
Boundary Scan
Boundary-Scan instructions and associated data registers
support a standard methodology for accessing and
configuring Virtex-5 devices, complying with IEEE
standards 1149.1 and 1532.
8
www.xilinx.com
Configuration
Virtex-5 devices are configured by loading the bitstream into
internal configuration memory using one of the following
modes:
•
•
•
•
•
•
•
In addition, Virtex-5 devices also support the following
configuration options:
•
•
•
•
•
Virtex-5 device configuration is further discussed in the
Virtex-5 FPGA Configuration Guide.
System Monitor
FPGAs are an important building block in high
availability/reliability infrastructure. Therefore, there is need
to better monitor the on-chip physical environment of the
FPGA and its immediate surroundings within the system.
For the first time, the Virtex-5 family System Monitor
facilitates easier monitoring of the FPGA and its external
environment. Every member of the Virtex-5 family contains
a System Monitor block. The System Monitor is built around
a 10-bit 200kSPS ADC (Analog-to-Digital Converter). This
ADC is used to digitize a number of on-chip sensors to
provide information about the physical environment within
the FPGA. On-chip sensors include a temperature sensor
and power supply sensors. Access to the external
environment is provided via a number of external analog
input channels. These analog inputs are general purpose
and can be used to digitize a wide variety of voltage signal
types. Support for unipolar, bipolar, and true differential
input schemes is provided. There is full access to the on-
chip sensors and external channels via the JTAG TAP,
allowing the existing JTAG infrastructure on the PC board to
be used for analog test and advanced diagnostics during
development or after deployment in the field. The System
Monitor is fully operational after power up and before
configuration of the FPGA. System Monitor does not require
an explicit instantiation in a design to gain access to its
basic functionality. This allows the System Monitor to be
used even at a late stage in the design cycle.
The Virtex-5 FPGA System Monitor is further discussed in
theVirtex-5 FPGA System Monitor User Guide.
Slave-serial mode
Master-serial mode
Slave SelectMAP mode
Master SelectMAP mode
Boundary-Scan mode (IEEE-1532 and -1149)
SPI mode (Serial Peripheral Interface standard Flash)
BPI-up/BPI-down modes (Byte-wide Peripheral
interface standard x8 or x16 NOR Flash)
256-bit AES bitstream decryption for IP protection
Multi-bitstream management (MBM) for cold/warm boot
support
Parallel configuration bus width auto-detection
Parallel daisy chain
Configuration CRC and ECC support for the most
robust, flexible device integrity checking
DS100 (v5.0) February 6, 2009
Product Specification
R
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