Visible to Intel only — GUID: chf1699030994898
Ixiasoft
2.1. FPGA Simulation Essential Elements
2.2. Overview of Simulation Tool Flow
2.3. Simulation Tool Flow
2.4. Supported Hardware Description Languages
2.5. Supported Simulation Types
2.6. Supported Simulators
2.7. Post-Fit Simulation Support by FPGA Family
2.8. Automating Simulation with the Run Simulation Feature
2.9. Intel FPGA Simulation Basics Revision History
2.8.2.1. Specifying Required Simulation Settings for Run Simulation (Batch Mode)
2.8.2.2. Optional Simulation Settings for Run Simulation (Batch Mode)
2.8.2.3. Launching Simulation with the Run Simulation Feature
2.8.2.4. Running RTL Simulation using Run Simulation
2.8.2.5. Output Directories and Files for Run Simulation
3.1. Types of Questa* Intel® FPGA Edition Commands
3.2. Commands to Invoke Questa* Intel® FPGA Edition
3.3. Commands to Compile, Elaborate, and Simulate
3.4. Why You Should Only Use Precompiled Questa Intel FPGA Edition Libraries
3.5. Generating a msim_setup.tcl Simulation Script for RTL Simulation
3.6. Using the Qrun Flow
3.7. Performing RTL Simulation with Questa* Intel® FPGA Edition
3.8. Performing Gate-Level Simulation with Questa* Intel® FPGA Edition
3.3.1.1. Compilation Example 1: Compile File foo.sv into a Logical Library
3.3.1.2. Compilation Example 2: Compile File design1.sv to Default Library (work)
3.3.1.3. Compilation Example 3: Compile All .sv Files into Logical Library foo
3.3.1.4. Compilation Example 4: Compile File foo.sv into Work with Verilog Macro FAST Set to 1
3.3.1.5. Compilation Example 5: File my_pkg.sv Defines SystemVerilog Package my_pkg and File foo.sv Imports my_pkg
3.3.1.6. Compilation Example 6: File my_pkg.sv Defines Systemverilog Package my_pkg and File foo.sv Imports my_pkg
3.3.4.1. Simulation Example 1: Run Simulation Until the End, while Capturing Waveforms of All Top-Level Signals in the Testbench
3.3.4.2. Simulation Example 2: Run Simulation for 30 Milliseconds, while Capturing Waveforms of All Top-Level Signals in the Hierarchy
3.3.4.3. Simulation Example 3: Run Simulation Until the End, while Capturing Waveforms of Top-Level Design Instance
3.8.1. Post-Synthesis and Post-Fit Netlists for Simulation
3.8.2. Files Required for Gate-Level Simulation
3.8.3. Step 1: Generate Gate-Level Netlists for Simulation
3.8.4. Step 2: Identify Simulation Files and Compilation Options for Gate-Level Simulation
3.8.5. Step 3: Determine Elaboration Options for Gate-Level Simulation
3.8.6. Step 4: Assemble and Run the Gate-Level Simulation Script
Visible to Intel only — GUID: chf1699030994898
Ixiasoft
2.7. Post-Fit Simulation Support by FPGA Family
The current version of the Quartus® Prime Pro Edition software provides the following post-fit functional simulation support per FPGA family. In the table, Core fabric is the main FPGA die that includes lookup tables, M20K memories, and DSP blocks. Basic I/Os do not include complex interfaces, such as transceivers or external memory interfaces.
FPGA Family | Post-Fit Simulation Support Level |
---|---|
Agilex™ 7 F-Series FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Agilex™ 7 M-Series FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Agilex™ 7 I-Series FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Agilex™ 5 D-Series FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Agilex™ 5 E-Series FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Stratix® 10 FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Cyclone® 10 GX FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Arria® 10 FPGAs | Limited support for designs that contain only core fabric logic and basic I/Os. |
Note: For more information, refer to the specific FPGA device user guide.