Quartus® Prime Pro Edition User Guide: Design Constraints

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ID 683143
Date 8/07/2024
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Document Table of Contents x
Answers to Top FAQs 1. Constraining Designs 2. Interface Planning 3. Managing Device I/O Pins 4. Quartus® Prime Pro Edition User Guide: Design Constraints Document Archives A. Quartus® Prime Pro Edition User Guides
1. Constraining Designs x
What's New In This Version 1.1. Specifying Design Constraints in the GUI 1.2. Constraining Designs with Tcl Scripts 1.3. A Fully Iterative Scripted Flow 1.4. Constraining Designs Revision History
1.1. Specifying Design Constraints in the GUI x
1.1.1. Global Constraints and Assignments 1.1.2. Node, Entity, and Instance-Level Constraints 1.1.3. Probing Between Components of the Quartus® Prime GUI 1.1.4. Specifying Timing Constraints
1.1.2. Node, Entity, and Instance-Level Constraints x
1.1.2.1. Specify Instance-Specific Constraints in Assignment Editor 1.1.2.2. Specify NoC Constraints in NoC Assignment Editor 1.1.2.3. Specify Dual Simplex Assignments in DS Assignment Editor 1.1.2.4. Specify I/O Constraints in Pin Planner 1.1.2.5. Plan Interface Constraints in Interface Planner and Tile Interface Planner 1.1.2.6. Adjust Constraints with the Chip Planner 1.1.2.7. Constraining Designs with the Design Partition Planner
1.1.2.1. Specify Instance-Specific Constraints in Assignment Editor x
1.1.2.1.1. Specifying Multi-Dimensional Bus Constraints
1.1.2.2. Specify NoC Constraints in NoC Assignment Editor x
1.1.2.2.1. NoC Assignment Editor Interface Controls 1.1.2.2.2. Troubleshooting NoC Assignment Editor
1.2. Constraining Designs with Tcl Scripts x
1.2.1. Create a Project and Apply Constraints 1.2.2. Assigning a Pin 1.2.3. Generating Quartus® Prime Settings Files 1.2.4. Synopsys* Design Constraint (.sdc) Files 1.2.5. Tcl-only Script Flows
2. Interface Planning x
2.1. Using Interface Planner 2.2. Using Tile Interface Planner 2.3. Interface Planning Revision History
2.1. Using Interface Planner x
2.1.1. Interface Planner User Interface 2.1.2. Interface Planner General Tool Flow 2.1.3. Interface Planner NoC Tool Flow 2.1.4. Interface Planner Reports
2.1.1. Interface Planner User Interface x
2.1.1.1. Flow Controls 2.1.1.2. Home Tab Controls 2.1.1.3. Assignments Tab Controls 2.1.1.4. Plan Tab Controls 2.1.1.5. Reports Tab Controls
2.1.2. Interface Planner General Tool Flow x
2.1.2.1. Step 1: Setup and Synthesize the Project 2.1.2.2. Step 2: Initialize Interface Planner 2.1.2.3. Step 3: Update Plan with Project Assignments 2.1.2.4. Step 4: Plan Periphery Placement 2.1.2.5. Step 5: Report Placement Data 2.1.2.6. Step 6: Validate and Export Plan Constraints
2.1.2.4. Step 4: Plan Periphery Placement x
2.1.2.4.1. Plan Clock Networks 2.1.2.4.2. Saving & Loading Floorplans
2.1.4. Interface Planner Reports x
2.1.4.1. Report Summary 2.1.4.2. Report Pins 2.1.4.3. Report HSSI Channels 2.1.4.4. Report Clocks 2.1.4.5. Report Periphery Locations 2.1.4.6. Report Cell Connectivity 2.1.4.7. Report Instance Assignments 2.1.4.8. Report NoC Performance
2.2. Using Tile Interface Planner x
2.2.1. Tile Interface Planner Terminology 2.2.2. Tile Interface Planner Tool Flow 2.2.3. Constraining Dynamic Reconfiguration IP 2.2.4. Tile Interface Planner GUI Reference
2.2.2. Tile Interface Planner Tool Flow x
2.2.2.1. Step 1: Instantiate IP and Run Design Analysis 2.2.2.2. Step 2: Initialize Tile Interface Planner 2.2.2.3. Step 3: Update Plan with Project Assignments 2.2.2.4. Step 4: Create a Tile Plan 2.2.2.5. Step 5: Save Tile Plan Assignments 2.2.2.6. Step 6: Run Logic Generation and Design Synthesis
2.2.2.4. Step 4: Create a Tile Plan x
2.2.2.4.1. Placing IP Components 2.2.2.4.2. Constraining IP Building Blocks
2.2.3. Constraining Dynamic Reconfiguration IP x
2.2.3.1. Defining a Dynamic Reconfiguration Group 2.2.3.2. Assigning Dynamic Reconfiguration Group Placement
2.2.4. Tile Interface Planner GUI Reference x
2.2.4.1. Flow Controls 2.2.4.2. Home Tab 2.2.4.3. Assignments Tab Controls 2.2.4.4. Plan Tab Controls 2.2.4.5. Tcl Console Window
2.2.4.4. Plan Tab Controls x
2.2.4.4.1. Design Tree and Filters 2.2.4.4.2. Reconfiguration Groups View 2.2.4.4.3. Legal Locations Pane
3. Managing Device I/O Pins x
3.1. I/O Planning Overview 3.2. Assigning I/O Pins 3.3. Importing and Exporting I/O Pin Assignments 3.4. Validating Pin Assignments 3.5. Verifying I/O Timing 3.6. Viewing Routing and Timing Delays 3.7. Scripting API 3.8. Managing Device I/O Pins Revision History
3.1. I/O Planning Overview x
3.1.1. Basic I/O Planning Flow 3.1.2. Integrating PCB Design Tools 3.1.3. Intel FPGA Device and I/O Terminology
3.2. Assigning I/O Pins x
3.2.1. Assigning to Exclusive Pin Groups 3.2.2. Assigning Slew Rate and Drive Strength 3.2.3. Assigning I/O Banks 3.2.4. Changing Pin Planner Highlight Colors 3.2.5. Showing I/O Lanes 3.2.6. Assigning Differential Pins 3.2.7. Entering Pin Assignments with Tcl Commands 3.2.8. Entering Pin Assignments in HDL Code
3.2.6. Assigning Differential Pins x
3.2.6.1. Overriding I/O Placement Rules on Differential Pins
3.2.8. Entering Pin Assignments in HDL Code x
3.2.8.1. Using Low-Level I/O Primitives
3.3. Importing and Exporting I/O Pin Assignments x
3.3.1. Importing and Exporting for PCB Tools 3.3.2. Migrating Assignments to Another Target Device
3.4. Validating Pin Assignments x
3.4.1. I/O Assignment Validation Rules 3.4.2. I/O Assignment Analysis 3.4.3. Understanding I/O Analysis Reports
3.4.2. I/O Assignment Analysis x
3.4.2.1. Early I/O Assignment Analysis Without Design Files 3.4.2.2. I/O Assignment Analysis With Design Files 3.4.2.3. Overriding Default I/O Pin Analysis
3.5. Verifying I/O Timing x
3.5.1. Running Advanced I/O Timing 3.5.2. Adjusting I/O Timing and Power with Capacitive Loading
3.5.1. Running Advanced I/O Timing x
3.5.1.1. Board Trace Models 3.5.1.2. Defining the Board Trace Model 3.5.1.3. Modifying the Board Trace Model 3.5.1.4. Specifying Near-End vs Far-End I/O Timing Analysis 3.5.1.5. Advanced I/O Timing Analysis Reports
3.7. Scripting API x
3.7.1. Generate Mapped Netlist 3.7.2. Reserve Pins 3.7.3. Set Location 3.7.4. Exclusive I/O Group 3.7.5. Slew Rate and Current Strength
Answers to Top FAQs
1. Constraining Designs
2. Interface Planning
3. Managing Device I/O Pins
4. Quartus® Prime Pro Edition User Guide: Design Constraints Document Archives
A. Quartus® Prime Pro Edition User Guides

1. Constraining Designs

The design constraints, assignments, and logic options that you specify influence how the Quartus® Prime Compiler implements your design. The Compiler attempts to synthesize and place logic in a manner than meets your constraints. In addition, design constraints also have an impact on how the Timing Analyzer and the Power Analyzer influence synthesis, placement, and routing.

You can specify design constraints in the GUI, with scripts, or directly in the files that store the constraints. The Quartus® Prime software preserves the constraints that you specify in the GUI in the following files:

  • Quartus® Prime Settings file (<project_directory>/<revision_name>.qsf)—contains project-wide and instance-level assignments for the current revision of the project, in Tcl syntax. Each revision of a project has a separate .qsf file.
  • Synopsys* Design Constraints file (<project_directory>/<revision_name>.sdc)—the Timing Analyzer uses industry-standard Synopsys* Design Constraint format and stores those constraints in .sdc files.
By combining the syntax of the .qsf files and the .sdc files with procedural Tcl, you can automate iterations over several different settings, changing constraints and recompiling.

What's New In This Version

  • For designs with supported HSSI IP targeting Agilex™ 5 FPGAs only, you can now use the HSSI Dual Simplex IP Generation Flow to enable placing supported simplex transceiver-based IPs in the same transceiver channel (using dual simplex mode) using the DS Assignment Editor, as Specify Dual Simplex Assignments in DS Assignment Editor describes.

Section Content
Specifying Design Constraints in the GUI
Constraining Designs with Tcl Scripts
A Fully Iterative Scripted Flow
Constraining Designs Revision History

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