0 Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays R DS025-1 (v1.4) April 2, 2001 0 0 Preliminary Product Specification Features • • • • Fast, Extended Block RAM, 1.8 V FPGA Family - 560 Kb and 1,120 Kb embedded block RAM - 130 MHz internal performance (four LUT levels) - PCI compliant 3.3 V, 32/64-bit, 33/66-MHz Sophisticated SelectRAM+™ Memory Hierarchy - 294 Kb of internal configurable distributed RAM - Up to 1,120 Kb of synchronous internal block RAM - True Dual-Port™ block RAM - Memory bandwidth up to 2.24 Tb/s (equivalent bandwidth of over 100 RAMBUS channels) - Designed for high-performance Interfaces to external memories · 200 MHz ZBT* SRAMs · 200 Mb/s DDR SDRAMs Highly Flexible SelectIO+™ Technology - Supports 20 high-performance interface standards - Up to 556 singled-ended I/Os or up to 201 differential I/O pairs for an aggregate bandwidth of >100 Gb/s Complete Industry-Standard Differential Signalling Support - LVDS (622 Mb/s), BLVDS (Bus LVDS), LVPECL - Al I/O signals can be input, output, or bi-directional - • • • • • • • • LVPECL and LVDS clock inputs for 300+ MHz clocks Proprietary High-Performance SelectLink™ Technology - 80 Gb/s chip-to-chip communication link - Support for Double Data Rate (DDR) interface - Web-based HDL generation methodology Eight Fully Digital Delay-Locked Loops (DLLs) IEEE 1149.1 boundary-scan logic Supported by Xilinx Foundation Series™ and Alliance Series™ Development Systems - Internet Team Design (Xilinx iTD™) tool ideal for million-plus gate density designs - Wide selection of PC or workstation platforms SRAM-based In-System Configuration - Unlimited re-programmability Advanced Packaging Options - 1.0 mm FG676 and FG900 - 1.27 mm BG560 0.18 mm 6-layer Metal Process with Copper Interconnect 100% Factory Tested * ZBT is a trademark of Integrated Device Technology, Inc. Introduction The Virtex™-E Extended Memory (Virtex-EM) family of FPGAs is an extension of the highly successful Virtex-E family architecture. The Virtex-EM family (devices shown in Table 1) includes all of the features of Virtex-E, plus additional block RAM, useful for applications such as network switches and high-performance video graphic systems. Xilinx developed the Virtex-EM product family to enable customers to design systems requiring high memory bandwidth, such as 160 Gb/s network switches. Unlike traditional ASIC devices, this family also supports fast time-to-market delivery, because the development engineering is already completed. Just complete the design and program the device. There is no NRE, no silicon production cycles, and no additional delays for design re-work. In addition, designers can update the design over a network at any time, providing product upgrades or updates to customers even sooner. The Virtex-EM family is the result of more than fifteen years of FPGA design experience. Xilinx has a history of supporting customer applications by providing the highest level of logic, RAM, and features available in the industry. The Virtex-EM family, first FPGAs to deploy copper interconnect, offers the performance and high memory bandwidth for advanced system integration without the initial investment, long development cycles, and inventory risk expected in traditional ASIC development. © 2001 Xilinx, Inc. All rights reserved. All Xilinx trademarks, registered trademarks, patents, and disclaimers are as listed at http://www.xilinx.com/legal.htm. All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice. DS025-1 (v1.4) April 2, 2001 Preliminary Product Specification www.xilinx.com 1-800-255-7778 Module 1 of 4 1 R Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays Table 1: Virtex-E Extended Memory Field-Programmable Gate Array Family Members Device Logic Gates CLB Array Logic Cells Differential I/O Pairs User I/O BlockRAM Bits Distributed RAM Bits XCV405E 129,600 40 x 60 10,800 183 404 573,440 153,600 XCV812E 254,016 56 x 84 21,168 201 556 1,146,880 301,056 Virtex-E Compared to Virtex Devices The Virtex-E family offers up to 43,200 logic cells in devices up to 30% faster than the Virtex family. I/O performance is increased to 622 Mb/s using Source Synchronous data transmission architectures and synchronous system performance up to 240 MHz using singled-ended SelectI/O technology. Additional I/O standards are supported, notably LVPECL, LVDS, and BLVDS, which use two pins per signal. Almost all signal pins can be used for these new standards. Virtex-E devices have up to 640 Kb of faster (250MHz) block SelectRAM, but the individual RAMs are the same size and structure as in the Virtex family. They also have eight DLLs instead of the four in Virtex devices. Each individual DLL is slightly improved with easier clock mirroring and 4x frequency multiplication. VCCINT, the supply voltage for the internal logic and memory, is 1.8 V, instead of 2.5 V for Virtex devices. Advanced processing and 0.18 mm design rules have resulted in smaller dice, faster speed, and lower power consumption. I/O pins are 3 V tolerant, and can be 5 V tolerant with an external 100 W resistor. PCI 5 V is not supported. With the addition of appropriate external resistors, any pin can tolerate any voltage desired. Banking rules are different. With Virtex devices, all input buffers are powered by VCCINT. With Virtex-E devices, the LVTTL, LVCMOS2, and PCI input buffers are powered by the I/O supply voltage VCCO. The Virtex-E family is not bitstream-compatible with the Virtex family, but Virtex designs can be compiled into equivalent Virtex-E devices. The same device in the same package for the Virtex-E and Virtex families are pin-compatible with some minor exceptions. See the data sheet pinout section for details. General Description The Virtex-E FPGA family delivers high-performance, high-capacity programmable logic solutions. Dramatic increases in silicon efficiency result from optimizing the new architecture for place-and-route efficiency and exploiting an aggressive 6-layer metal 0.18 mm CMOS process. These advances make Virtex-E FPGAs powerful and flexible alter- Module 1 of 4 2 natives to mask-programmed gate arrays. The Virtex-E family includes the nine members in Table 1. Building on experience gained from Virtex FPGAs, the Virtex-E family is an evolutionary step forward in programmable logic design. Combining a wide variety of programmable system features, a rich hierarchy of fast, flexible interconnect resources, and advanced process technology, the Virtex-E family delivers a high-speed and high-capacity programmable logic solution that enhances design flexibility while reducing time-to-market. Virtex-E Architecture Virtex-E devices feature a flexible, regular architecture that comprises an array of configurable logic blocks (CLBs) surrounded by programmable input/output blocks (IOBs), all interconnected by a rich hierarchy of fast, versatile routing resources. The abundance of routing resources permits the Virtex-E family to accommodate even the largest and most complex designs. Virtex-E FPGAs are SRAM-based, and are customized by loading configuration data into internal memory cells. Configuration data can be read from an external SPROM (master serial mode), or can be written into the FPGA (SelectMAP™, slave serial, and JTAG modes). The standard Xilinx Foundation Series™ and Alliance Series™ Development systems deliver complete design support for Virtex-E, covering every aspect from behavioral and schematic entry, through simulation, automatic design translation and implementation, to the creation and downloading of a configuration bit stream. Higher Performance Virtex-E devices provide better performance than previous generations of FPGAs. Designs can achieve synchronous system clock rates up to 240 MHz including I/O or 622 Mb/s using Source Synchronous data transmission architechtures. Virtex-E I/Os comply fully with 3.3 V PCI specifications, and interfaces can be implemented that operate at 33 MHz or 66 MHz. While performance is design-dependent, many designs operate internally at speeds in excess of 133 MHz and can achieve over 311 MHz. Table 2, page 3, shows performance data for representative circuits, using worst-case timing parameters. www.xilinx.com 1-800-255-7778 DS025-1 (v1.4) April 2, 2001 Preliminary Product Specification R Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays Table 2: Performance for Common Circuit Functions Function Bits Virtex-E -7 16 64 4.3 ns 6.3 ns 8x8 16 x 16 4.4 ns 5.1 ns 16 64 3.8 ns 5.5 ns Register-to-Register Adder Pipelined Multiplier Address Decoder 16:1 Multiplexer 4.6 ns 9 18 36 Parity Tree 3.5 ns 4.3 ns 5.9 ns Chip-to-Chip HSTL Class IV LVTTL,16mA, fast slew LVDS LVPECL Virtex-E Extended Memory Device/Package Combinations and Maximum I/O Table 3: Virtex-EM Family Maximum User I/O by Device/Package (Excluding Dedicated Clock Pins) Package XCV405E XCV812E BG560 404 404 FG676 404 FG900 556 Virtex-E Extended Memory Ordering Information Example: XCV405E-6BG560C Device Type Speed Grade (-6, -7, -8) Temperature Range C = Commercial (TJ = 0˚C to +85˚C) I = Industrial (TJ = −40˚C to +100˚C) Number of Pins Package Type BG = Ball Grid Array FG = Fine Pitch Ball Grid Array DS025_001_112000 Figure 1: Virtex Ordering Information DS025-1 (v1.4) April 2, 2001 Preliminary Product Specification www.xilinx.com 1-800-255-7778 Module 1 of 4 3 R Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays Revision History The following table shows the revision history for this document. Date Version 03/23/00 1.0 Initial Xilinx release. 08/01/00 1.1 Accumulated edits and fixes. Upgrade to Preliminary. Preview -8 numbers added. Reformatted to adhere to corporate documentation style guidelines. Minor changes in BG560 pin-out table. 09/19/00 1.2 • 1.3 • • 11/20/00 Revision • • • • 04/02/01 1.4 • • • In Table 3 (Module 4), FG676 Fine-Pitch BGA — XCV405E, the following pins are no longer labeled as VREF: B7, G16, G26, W26, AF20, AF8, Y1, H1. Min values added to Virtex-E Electrical Characteristics tables. Updated speed grade -8 numbers in Virtex-E Electrical Characteristics tables (Module 3). Updated minimums in Table 11 (Module 2), and added notes to Table 12 (Module 2). Added to note 2 of Absolute Maximum Ratings (Module 3). Changed all minimum hold times to –0.4 for Global Clock Set-Up and Hold for LVTTL Standard, with DLL (Module 3). Revised maximum TDLLPW in -6 speed grade for DLL Timing Parameters (Module 3). In Table 4, FG676 Fine-Pitch BGA — XCV405E, pin B19 is no longer labeled as VREF, and pin G16 is now labeled as VREF. Updated values in Virtex-E Switching Characteristics tables. Converted data sheet to modularized format. See Virtex-E Extended Memory Data Sheet, below. Virtex-E Extended Memory Data Sheet The Virtex-E Extended Memory Data Sheet contains the following modules: • DS025-1, Virtex-E 1.8V Extended Memory FPGAs: • Introduction and Ordering Information (Module 1) • DC and Switching Characteristics (Module 3) DS025-2, Virtex-E 1.8V Extended Memory FPGAs: Functional Description (Module 2) Module 1 of 4 4 DS025-3, Virtex-E 1.8V Extended Memory FPGAs: • DS025-4, Virtex-E 1.8V Extended Memory FPGAs: Pinout Tables (Module 4) www.xilinx.com 1-800-255-7778 DS025-1 (v1.4) April 2, 2001 Preliminary Product Specification