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1. About the High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
2. Introduction to High Bandwidth Memory
3. Intel® Stratix® 10 HBM2 Architecture
4. Creating and Parameterizing the High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
5. Simulating the High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
6. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Interface
7. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Controller Performance
8. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP User Guide Archives
9. Document Revision History for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP User Guide
4.2.1. General Parameters for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
4.2.2. FPGA I/O Parameters for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
4.2.3. Controller Parameters for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
4.2.4. Diagnostic Parameters for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
4.2.5. Example Designs Parameters for High Bandwidth Memory (HBM2) Interface Intel® FPGA IP
4.2.6. Register Map IP-XACT Support for HBM2 IP
5.1. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Example Design
5.2. Simulating High Bandwidth Memory (HBM2) Interface Intel® FPGA IP with ModelSim* and Questa*
5.3. Simulating High Bandwidth Memory (HBM2) Interface Intel® FPGA IP with Synopsys VCS*
5.4. Simulating High Bandwidth Memory (HBM2) Interface Intel® FPGA IP with Riviera-PRO*
5.5. Simulating High Bandwidth Memory (HBM2) Interface Intel® FPGA IP with Cadence Xcelium* Parallel Simulator
5.6. Simulating High Bandwidth Memory (HBM2) Interface Intel® FPGA IP for High Efficiency
5.7. Simulating High Bandwidth Memory (HBM2) Interface IP Instantiated in Your Project
6.1. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP High Level Block Diagram
6.2. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Controller Interface Signals
6.3. User AXI Interface Timing
6.4. User APB Interface Timing
6.5. User-controlled Accesses to the HBM2 Controller
6.6. Soft AXI Switch
7.1. High Bandwidth Memory (HBM2) DRAM Bandwidth
7.2. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP HBM2 IP Efficiency
7.3. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Latency
7.4. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP Timing
7.5. High Bandwidth Memory (HBM2) Interface Intel® FPGA IP DRAM Temperature Readout
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6.5.6. User Interrupt
An interrupt signal occurs when one or more of the Error Status signals are TRUE. You can configure the conditions that help to trigger the interrupt signal.
The various status signals on which you can generate the interrupt include the following:
- Single-bit error (SBE) or double-bit error (DBE) of AXI Read Data or internal RAM used for Write and Read data storage
- Read Data parity error (RDPE) or Write Data parity error (WDPE) of AXI Read Data
- Address Command parity error
- CATTRIP
- Calibration