1. Product Specifications
Technical Specifications
| Parameter | Specification |
|---|---|
| Part Number | XQVR1000-1CG560I |
| Manufacturer | Xilinx (now AMD) |
| Product Family | QPro Virtex 2.5V Radiation-Hardened FPGAs |
| System Gates | 1,000,000 (1M) |
| Logic Cells | 27,648 |
| Process Technology | 0.22ฮผm CMOS, 5-layer metal |
| Supply Voltage | 2.5V core, 3.3V I/O |
| Package Type | 560-pin CG (Ceramic Grid Array) |
| Package Size | Industrial standard |
| Speed Grade | -1 (Industrial grade) |
Performance Characteristics
- System Performance: Up to 200 MHz
- I/O Standards: Multi-standard SelectIO interfaces (16 high-performance standards)
- Clock Management: Four dedicated delay-locked loops (DLLs)
- Global Clock Networks: 4 primary low-skew + 24 secondary global nets
- Memory System: Hierarchical with configurable LUTs and dual-ported 4k-bit RAMs
Radiation Tolerance
- Total Ionizing Dose (TID): 100 Krads (Si) guaranteed
- Single Event Latch-up: Immune to LET = 125 MeVยทcmยฒ/mg
- Single Event Upset (SEU): Immunity achievable with recommended redundancy
- Quality Level: QML-V qualified for space applications
Environmental Specifications
- Operating Temperature: -55ยฐC to +125ยฐC (full military range)
- Storage Temperature: -65ยฐC to +150ยฐC
- Thermal Resistance: Optimized for space thermal management
- Vibration/Shock: Space-grade mechanical specifications
2. Pricing Information
Market Pricing
- List Price Range: $12,000 – $15,000 (100-piece quantities)
- Pricing Tier: Premium space-grade component
- Volume Discounts: Available for large orders (contact suppliers)
- Lead Time: 12-20 weeks (typical for radiation-hardened components)
Note: Pricing fluctuates based on market conditions, order quantity, and supplier availability. Contact authorized distributors for current pricing and availability.
Cost Considerations
- Premium pricing reflects radiation-hardening processes
- Long-term space mission reliability justifies investment
- Lower total system cost compared to custom ASIC development
- Reduced development time and risk versus one-time programmable solutions
3. Documents & Media
Technical Documentation
Primary Documents
- Datasheet: QPro Virtex 2.5V Radiation-Hardened FPGAs Data Sheet
- User Guide: Virtex FPGA Family Complete Data Sheet
- Application Notes: Radiation effects characterization reports
- Programming Guide: Configuration and programming specifications
Design Resources
- IBIS Models: Signal integrity simulation models
- Package Thermal Models: Thermal analysis tools
- PCB Design Guidelines: Layout recommendations for space applications
- Pinout Documentation: Complete pin assignment tables
Software Tools
- Vivado Design Suite: Primary development environment
- ISE Design Tools: Legacy support (compatibility maintained)
- Programming Tools: Dedicated space-grade programming solutions
Media Resources
Visual Materials
- High-resolution product images
- Package outline drawings
- Internal die photographs
- Application block diagrams
Video Content
- Technical overview presentations
- Application demonstration videos
- Design methodology tutorials
4. Related Resources
Development Ecosystem
Evaluation Platforms
- ADA-SDEV-KIT3: Development kit for space-grade Xilinx FPGAs
- Custom Evaluation Boards: Partner-developed solutions
- Reference Designs: Proven application implementations
IP Cores and Libraries
- GRLIB IP Library: 100+ peripheral IP cores for space applications
- Processor Cores: LEON3FT, LEON5FT SPARC processors
- NOEL-V: RISC-V processor cores
- Communications: CAN, SpaceWire, Ethernet controllers
- Memory Controllers: Fault-tolerant SRAM/DRAM interfaces
Partner Solutions
- Cobham Advanced Electronic Solutions: RadHard supporting components
- Gaisler: Space-qualified IP cores and processors
- System Integrators: Complete spacecraft electronics solutions
Alternative Products
Within QPro Virtex Family
- XQVR300: 300K gates, smaller applications
- XQVR600: 600K gates, mid-range option
- XQVR1000 variants: Different packages and speed grades
Next-Generation Options
- Kintex UltraScale XQR: 20nm technology, higher performance
- Versal XQR: Adaptive SoC with AI capabilities
Application Examples
- Satellite Payloads: Image processing, communications
- Deep Space Missions: Mars rovers, interplanetary probes
- Earth Observation: High-resolution imaging systems
- Navigation Systems: GPS/GNSS space segments
- Scientific Instruments: Space telescopes, particle detectors
5. Environmental & Export Classifications
Environmental Compliance
RoHS Compliance
- Status: Compliant with RoHS directive restrictions
- Lead-free: Uses lead-free solder materials where applicable
- Halogen-free: Meets halogen-free requirements for space applications
Space Environmental Standards
- NASA Standards: Meets NASA EEE-INST-002 requirements
- ESA Standards: Compliant with ECSS space component standards
- MIL Standards: MIL-PRF-38535 qualified
- JEDEC Standards: Temperature cycling and reliability testing
Export Classifications
Export Control Information
- ECCN: 3A001 (US Export Administration Regulations)
- Export License: May require export license for certain destinations
- Technology Transfer: Subject to International Traffic in Arms Regulations (ITAR)
- End-Use Restrictions: Space and military applications monitored
Regional Compliance
- EU: Dual-use items regulation compliance
- Japan: Foreign Exchange and Foreign Trade Act compliance
- International: Wassenaar Arrangement considerations
Quality and Certification
Military Standards
- QML-V: Qualified Manufacturers List, Class V
- MIL-STD-883: Test methods and procedures
- MIL-PRF-38535: General specification compliance
Space Standards
- NASA Level 1: Highest reliability classification
- ESA Space Components: European space agency qualified
- JAXA Standards: Japan space agency approved
ISO Certifications
- ISO 9001: Quality management systems
- AS9100: Aerospace quality management
- ISO 14001: Environmental management systems
Applications and Use Cases
Primary Applications
- Satellite communication systems
- Space-based radar and imaging
- Deep space exploration vehicles
- Nuclear facility monitoring
- High-energy physics experiments
Key Benefits
- Unlimited Reprogrammability: Field updates and mission adaptability
- High Integration: Reduces system complexity and weight
- Proven Heritage: Extensive flight history and reliability data
- Design Flexibility: Rapid prototyping and development
- Cost Effective: Alternative to expensive custom ASICs
For technical support, pricing inquiries, or additional documentation, contact authorized Xilinx distributors or AMD’s Aerospace and Defense division.
