Visible to Intel only — GUID: mwh1409959236116
Ixiasoft
1. Answers to Top FAQs
2. Creating a System with Platform Designer
3. Creating a Board Support Package with BSP Editor
4. Creating Platform Designer Components
5. Optimizing Platform Designer System Performance
6. Platform Designer Interconnect
7. Platform Designer System Design Components
8. Platform Designer Command-Line Utilities
9. Component Interface Tcl Reference
10. Intel® Quartus® Prime Pro Edition User Guide: Platform Designer Document Archives
A. Intel® Quartus® Prime Pro Edition User Guides
2.1. What's New In This Version
2.2. Platform Designer Interface Support
2.3. Platform Designer System Design Flow
2.4. Creating or Opening a Platform Designer System
2.5. Using the Board-Aware Flow in Platform Designer
2.6. Viewing a Platform Designer System
2.7. Adding IP Components to a System
2.8. Connecting System Components
2.9. Specifying Interconnect Parameters
2.10. Correcting Platform Designer System Timing Issues
2.11. Specifying Signal and Interface Boundary Requirements
2.12. Configuring Platform Designer System Security
2.13. Upgrading Outdated IP Components in Platform Designer
2.14. Synchronizing System Component Information
2.15. Validating System Integrity
2.16. Preserving System Elements for Debug
2.17. Generating a Platform Designer System
2.18. Generating Simulation Files for Platform Designer Systems and IP Variants
2.19. Adding a System to an Intel® Quartus® Prime Project
2.20. Managing Hierarchical Platform Designer Systems
2.21. Saving and Archiving Platform Designer Systems
2.22. Sharing Platform Designer Packaged Subsystems
2.23. Comparing Platform Designer Systems and IP components
2.24. Running System Scripts
2.25. Creating a System with Platform Designer Revision History
2.6.1. Viewing the System Hierarchy
2.6.2. Filtering the System View
2.6.3. Viewing System Connections
2.6.4. Viewing Clock and Reset Domains
2.6.5. Viewing Avalon® Memory-Mapped Domains in a System
2.6.6. Viewing the System Schematic
2.6.7. Customizing the Platform Designer Layout
2.6.8. Changing the Platform Designer Font
2.17.1. Generation Dialog Box Options
2.17.2. Specifying the Generation ID
2.17.3. Disabling or Enabling Parallel IP Generation
2.17.4. Files Generated for Platform Designer Systems
2.17.5. Generating System Testbench Files
2.17.6. Generating Example Designs for IP Components
2.17.7. Incremental System Generation Example
2.17.8. Generating the HPS IP Component System View Description File
2.17.9. Generating Header Files for Host Components
2.22.1. User Personas for Packaged Subsystems
2.22.2. Terminology for Packaged Subsystems
2.22.3. Creating a New Packaged Subsystem
2.22.4. Specifying Additional Packaged Subsystem Files
2.22.5. Modifying the Packaged Subsystem Script
2.22.6. Instantiating a Packaged Subsystem
2.22.7. Revising a Packaged Subsystem
2.22.8. New Packaged Subsystem Dialog Box Options and Controls
4.1. Platform Designer Components
4.2. Design Phases of an IP Component
4.3. Creating IP Components in the Component Editor
4.4. Creating Generic Components in a System
4.5. Exporting HDL Parameters to a System
4.6. Scripting Wire-Level Expressions
4.7. Control Interfaces Dynamically with an Elaboration Callback
4.8. Control File Generation Dynamically with Parameters and a Fileset Callback
4.9. Create a Composed Component or Subsystem
4.10. Add Component Instances to a Static or Generated Component
4.11. Creating Platform Designer Components Revision History
4.3.1. Save an IP Component and Create the _hw.tcl File
4.3.2. Edit an IP Component with the Platform Designer Component Editor
4.3.3. Specify IP Component Type Information
4.3.4. Create an HDL File in the Platform Designer Component Editor
4.3.5. Defining HDL Parameters in _hw.tcl
4.3.6. Declaring SystemVerilog Interfaces in _hw.tcl
4.3.7. Create an HDL File Using a Template in the Platform Designer Component Editor
4.3.8. Specify Synthesis and Simulation Files in the Platform Designer Component Editor
4.3.9. Add Signals and Interfaces in the Platform Designer Component Editor
4.3.10. Specify Parameters in the Platform Designer Component Editor
4.3.8.1. Specify HDL Files for Synthesis in the Platform Designer Component Editor
4.3.8.2. Analyze Synthesis Files in the Platform Designer Component Editor
4.3.8.3. Specify Files for Simulation in the Component Editor
4.3.8.4. Include an Internal Register Map Description in the .svd for Agent Interfaces Connected to an HPS Component
4.3.10.1. Valid Ranges for Parameters in the _hw.tcl File
4.3.10.2. Types of Platform Designer Parameters
4.3.10.3. Obtaining Device Trait Information Using PART_TRAIT System Information Parameter
4.3.10.4. Declare Parameters with Custom _hw.tcl Commands
4.3.10.5. Validate Parameter Values with a Validation Callback
5.1. Designing with Avalon® and AXI Interfaces
5.2. Using Hierarchy in Systems
5.3. Using Concurrency in Memory-Mapped Systems
5.4. Inserting Pipeline Stages to Increase System Frequency
5.5. Using Bridges
5.6. Increasing Transfer Throughput
5.7. Reducing Logic Utilization
5.8. Reducing Power Consumption
5.9. Reset Polarity and Synchronization in Platform Designer
5.10. Optimizing Platform Designer System Performance Design Examples
5.11. Optimizing Platform Designer System Performance Revision History
6.1. Memory-Mapped Interfaces
6.2. Avalon® Streaming Interfaces
6.3. Avalon® Streaming Credit Interfaces
6.4. Interrupt Interfaces
6.5. Clock Interfaces
6.6. Reset Interfaces
6.7. Conduits
6.8. Interconnect Pipelining
6.9. Error Correction Coding (ECC) in Platform Designer Interconnect
6.10. AMBA* 3 AXI Protocol Specification Support (version 1.0)
6.11. AMBA* 3 APB Protocol Specification Support (version 1.0)
6.12. AMBA* 4 AXI Memory-Mapped Interface Support (version 2.0)
6.13. AMBA* 4 AXI Streaming Interface Support (version 1.0)
6.14. AMBA* 4 AXI-Lite Protocol Specification Support (version 2.0)
6.15. Port Roles (Interface Signal Types)
6.16. Platform Designer Interconnect Revision History
6.1.1. Platform Designer Packet Format
6.1.2. Interconnect Domains
6.1.3. Avalon Host and AXI Manager Network Interfaces
6.1.4. Avalon Agent and AXI Subordinate Network Interfaces
6.1.5. Arbitration
6.1.6. Memory-Mapped Arbiter
6.1.7. Datapath Multiplexing Logic
6.1.8. Width Adaptation
6.1.9. Burst Adapter
6.1.10. Waitrequest Allowance Adapter
6.1.11. Read and Write Responses
6.1.12. Platform Designer Address Decoding
6.1.3.1. Avalon® Memory Mapped Host Agent
6.1.3.2. Avalon® Memory Mapped Host Translator
6.1.3.3. AXI Manager Agent
6.1.3.4. AXI Translator
6.1.3.5. APB Manager Agent
6.1.3.6. APB Subordinate Agent
6.1.3.7. APB Translator
6.1.3.8. AHB Subordinate Agent
6.1.3.9. Memory-Mapped Router
6.1.3.10. Memory-Mapped Traffic Limiter
6.6.4.3.1. Reset Sequencer Status Register
6.6.4.3.2. Reset Sequencer Interrupt Enable Register
6.6.4.3.3. Reset Sequencer Control Register
6.6.4.3.4. Reset Sequencer Software Sequenced Reset Assert Control Register
6.6.4.3.5. Reset Sequencer Software Sequenced Reset Deassert Control Register
6.6.4.3.6. Reset Sequencer Software Direct Controlled Resets
6.6.4.3.7. Reset Sequencer Software Reset Masking
6.12.1. Burst Support
6.12.2. QoS
6.12.3. Regions
6.12.4. Write Response Dependency
6.12.5. AWCACHE and ARCACHE
6.12.6. Width Adaptation and Data Packing in Platform Designer
6.12.7. Ordering Model
6.12.8. Read and Write Allocate
6.12.9. Locked Transactions
6.12.10. Memory Types
6.12.11. Mismatched Attributes
6.12.12. Signals
6.14.1. AMBA* 4 AXI-Lite Signals
6.14.2. AMBA* 4 AXI-Lite Optional Port Support and Interconnect
6.14.3. AMBA* 4 AXI-Lite Bus Width
6.14.4. AMBA* 4 AXI-Lite Outstanding Transactions
6.14.5. AMBA* 4 AXI-Lite IDs
6.14.6. Connections Between AMBA* 3 AXI, AMBA* 4 AXI and AMBA* 4 AXI-Lite
6.14.7. AMBA* 4 AXI-Lite Response Merging
6.15.1. AXI Manager Interface Signal Types
6.15.2. AXI Subordinate Interface Signal Types
6.15.3. AMBA* 4 AXI Manager Interface Signal Types
6.15.4. AMBA* 4 AXI Subordinate Interface Signal Types
6.15.5. AMBA* 4 AXI-Stream Manager and Subordinate Interface Signal Types
6.15.6. AMBA* 4 AXI-Lite Signal Support and Limitations
6.15.7. APB Interface Signal Types
6.15.8. Avalon® Memory Mapped Interface Signal Roles
6.15.9. Avalon® Streaming Interface Signal Roles
6.15.10. Avalon® Streaming Credit Interface Signal Roles
6.15.11. Avalon® Streaming Credit User Signals
6.15.12. Avalon® Clock Source Signal Roles
6.15.13. Avalon® Clock Sink Signal Roles
6.15.14. Avalon® Conduit Signal Roles
6.15.15. Avalon® Tristate Conduit Signal Roles
6.15.16. Avalon® Tri-State Agent Interface Signal Types
6.15.17. Avalon® Interrupt Sender Signal Roles
6.15.18. Avalon® Interrupt Receiver Signal Roles
7.1. Bridges
7.2. Error Response Slave Intel® FPGA IP
7.3. Tri-State Components
7.4. Avalon® Data Pattern Generator and Checker Intel® FPGA IP
7.5. Avalon® Streaming Splitter Intel® FPGA IP
7.6. Avalon® Streaming Delay Intel® FPGA IP
7.7. Avalon® Streaming Round Robin Scheduler Intel® FPGA IP
7.8. Avalon® Packets to Transactions Converter Intel® FPGA IP
7.9. Avalon® Streaming Pipeline Stage Intel® FPGA IP
7.10. Avalon® Streaming Multiplexer and Demultiplexer Intel® FPGA IP
7.11. Avalon® Streaming Single-Clock and Dual-Clock FIFO Intel® FPGA IP
7.12. Platform Designer System Design Components Revision History
7.1.1. Clock Bridge Intel® FPGA IP
7.1.2. Avalon® Memory Mapped Clock Crossing Bridge Intel® FPGA IP
7.1.3. Avalon® Memory Mapped Pipeline Bridge Intel® FPGA IP
7.1.4. Avalon® Memory Mapped Unaligned Burst Expansion Bridge Intel® FPGA IP
7.1.5. Bridges Between Avalon® and AXI Interfaces
7.1.6. AXI Bridge Intel® FPGA IP
7.1.7. AXI Timeout Bridge Intel® FPGA IP
7.1.8. Address Span Extender Intel® FPGA IP
7.4.4.1. data_source_reset()
7.4.4.2. data_source_init()
7.4.4.3. data_source_get_id()
7.4.4.4. data_source_get_supports_packets()
7.4.4.5. data_source_get_num_channels()
7.4.4.6. data_source_get_symbols_per_cycle()
7.4.4.7. data_source_get_enable()
7.4.4.8. data_source_set_enable()
7.4.4.9. data_source_get_throttle()
7.4.4.10. data_source_set_throttle()
7.4.4.11. data_source_is_busy()
7.4.4.12. data_source_fill_level()
7.4.4.13. data_source_send_data()
7.4.5.1. data_sink_reset()
7.4.5.2. data_sink_init()
7.4.5.3. data_sink_get_id()
7.4.5.4. data_sink_get_supports_packets()
7.4.5.5. data_sink_get_num_channels()
7.4.5.6. data_sink_get_symbols_per_cycle()
7.4.5.7. data_sink_get_enable()
7.4.5.8. data_sink_set enable()
7.4.5.9. data_sink_get_throttle()
7.4.5.10. data_sink_set_throttle()
7.4.5.11. data_sink_get_packet_count()
7.4.5.12. data_sink_get_error_count()
7.4.5.13. data_sink_get_symbol_count()
7.4.5.14. data_sink_get_exception()
7.4.5.15. data_sink_exception_is_exception()
7.4.5.16. data_sink_exception_has_data_error()
7.4.5.17. data_sink_exception_has_missing_sop()
7.4.5.18. data_sink_exception_has_missing_eop()
7.4.5.19. data_sink_exception_signalled_error()
7.4.5.20. data_sink_exception_channel()
7.11.1. Interfaces Implemented in FIFO Cores
7.11.2. Avalon® Streaming FIFO IP Operating Modes
7.11.3. Avalon® Streaming FIFO IP Buffer Fill Level
7.11.4. Almost-Full and Almost-Empty Thresholds to Prevent Overflow and Underflow
7.11.5. Avalon® Streaming Single Clock and Dual Clock FIFO IP Parameters
7.11.6. Avalon® Streaming Single-Clock FIFO IP Registers
8.1. Run the Platform Designer Editor with qsys-edit
8.2. Scripting IP Core Generation
8.3. Board-Aware Flow Scripting Support
8.4. Display Available IP Components with ip-catalog
8.5. Create an .ipx File with ip-make-ipx
8.6. Generate Simulation Scripts
8.7. Generate a Platform Designer System with qsys-script
8.8. Parameterizing an Instantiated IP Core after save_system Command
8.9. Validate the Generic Components in a System with qsys-validate
8.10. Generate an IP Component or Platform Designer System with quartus_ipgenerate
8.11. Generate an IP Variation File with ip-deploy
8.12. Archive and Extract Platform Designer Systems with qsys-archive
8.13. Platform Designer Scripting Command Reference
8.14. Platform Designer Scripting Property Reference
8.15. Platform Designer Command-Line Interface Revision History
8.13.1.1. create_system
8.13.1.2. export_hw_tcl
8.13.1.3. get_device_families
8.13.1.4. get_devices
8.13.1.5. get_module_properties
8.13.1.6. get_module_property
8.13.1.7. get_project_properties
8.13.1.8. get_project_property
8.13.1.9. load_system
8.13.1.10. save_system
8.13.1.11. set_design_id
8.13.1.12. set_module_property
8.13.1.13. set_project_property
8.13.2.1. get_composed_connections
8.13.2.2. get_composed_connection_parameter_value
8.13.2.3. get_composed_connection_parameters
8.13.2.4. get_composed_instance_assignment
8.13.2.5. get_composed_instance_assignments
8.13.2.6. get_composed_instance_parameter_value
8.13.2.7. get_composed_instance_parameters
8.13.2.8. get_composed_instances
8.13.3.1. set_domain_assignment
8.13.3.2. get_domain_assignment
8.13.3.3. get_domain_assignments
8.13.3.4. set_interface_assignment
8.13.3.5. get_interface_assignment
8.13.3.6. get_interface_assignments
8.13.3.7. set_postadaptation_assignment
8.13.3.8. get_postadaptation_assignment
8.13.3.9. get_postadaptation_assignments
8.13.4.1. add_instance
8.13.4.2. apply_instance_preset
8.13.4.3. create_ip
8.13.4.4. add_component
8.13.4.5. duplicate_instance
8.13.4.6. enable_instance_parameter_update_callback
8.13.4.7. get_instance_assignment
8.13.4.8. get_instance_assignments
8.13.4.9. get_instance_documentation_links
8.13.4.10. get_instance_interface_assignment
8.13.4.11. get_instance_interface_assignments
8.13.4.12. get_instance_interface_parameter_property
8.13.4.13. get_instance_interface_parameter_value
8.13.4.14. get_instance_interface_parameters
8.13.4.15. get_instance_interface_port_property
8.13.4.16. get_instance_interface_ports
8.13.4.17. get_instance_interface_properties
8.13.4.18. get_instance_interface_property
8.13.4.19. get_instance_interfaces
8.13.4.20. get_instance_parameter_property
8.13.4.21. get_instance_parameter_value
8.13.4.22. get_instance_parameter_values
8.13.4.23. get_instance_parameters
8.13.4.24. get_instance_port_property
8.13.4.25. get_instance_properties
8.13.4.26. get_instance_property
8.13.4.27. get_instances
8.13.4.28. is_instance_parameter_update_callback_enabled
8.13.4.29. remove_instance
8.13.4.30. set_instance_parameter_value
8.13.4.31. set_instance_parameter_values
8.13.4.32. set_instance_property
8.13.5.1. add_instantiation_hdl_file
8.13.5.2. add_instantiation_interface
8.13.5.3. add_instantiation_interface_port
8.13.5.4. copy_instance_interface_to_instantiation
8.13.5.5. get_instantiation_assignment_value
8.13.5.6. get_instantiation_assignments
8.13.5.7. get_instantiation_hdl_file_properties
8.13.5.8. get_instantiation_hdl_file_property
8.13.5.9. get_instantiation_hdl_files
8.13.5.10. get_instantiation_interface_assignment_value
8.13.5.11. get_instantiation_interface_assignments
8.13.5.12. get_instantiation_interface_parameter_value
8.13.5.13. get_instantiation_interface_parameters
8.13.5.14. get_instantiation_interface_port_properties
8.13.5.15. get_instantiation_interface_port_property
8.13.5.16. get_instantiation_interface_ports
8.13.5.17. get_instantiation_interface_property
8.13.5.18. get_instantiation_interface_properties
8.13.5.19. get_instantiation_interface_sysinfo_parameter_value
8.13.5.20. get_instantiation_interface_sysinfo_parameters
8.13.5.21. get_instantiation_interfaces
8.13.5.22. get_instantiation_properties
8.13.5.23. get_instantiation_property
8.13.5.24. get_loaded_instantiation
8.13.5.25. import_instantiation_interfaces
8.13.5.26. load_instantiation
8.13.5.27. remove_instantiation_hdl_file
8.13.5.28. remove_instantiation_interface
8.13.5.29. remove_instantiation_interface_port
8.13.5.30. save_instantiation
8.13.5.31. set_instantiation_assignment_value
8.13.5.32. set_instantiation_hdl_file_property
8.13.5.33. set_instantiation_interface_assignment_value
8.13.5.34. set_instantiation_interface_parameter_value
8.13.5.35. set_instantiation_interface_port_property
8.13.5.36. set_instantiation_interface_sysinfo_parameter_value
8.13.5.37. set_instantiation_property
8.13.6.1. apply_component_preset
8.13.6.2. get_component_assignment
8.13.6.3. get_component_assignments
8.13.6.4. get_component_documentation_links
8.13.6.5. get_component_interface_assignment
8.13.6.6. get_component_interface_assignments
8.13.6.7. get_component_interface_parameter_property
8.13.6.8. get_component_interface_parameter_value
8.13.6.9. get_component_interface_parameters
8.13.6.10. get_component_interface_port_property
8.13.6.11. get_component_interface_ports
8.13.6.12. get_component_interface_property
8.13.6.13. get_component_interfaces
8.13.6.14. get_component_parameter_property
8.13.6.15. get_component_parameter_value
8.13.6.16. get_component_parameters
8.13.6.17. get_component_project_properties
8.13.6.18. get_component_project_property
8.13.6.19. get_component_property
8.13.6.20. get_loaded_component
8.13.6.21. load_component
8.13.6.22. reload_component_footprint
8.13.6.23. save_component
8.13.6.24. set_component_parameter_value
8.13.6.25. set_component_project_property
8.13.7.1. add_connection
8.13.7.2. auto_connect
8.13.7.3. get_connection_parameter_property
8.13.7.4. get_connection_parameter_value
8.13.7.5. get_connection_parameters
8.13.7.6. get_connection_properties
8.13.7.7. get_connection_property
8.13.7.8. get_connections
8.13.7.9. remove_connection
8.13.7.10. remove_dangling_connections
8.13.7.11. set_connection_parameter_value
8.13.8.1. add_interface
8.13.8.2. get_exported_interface_sysinfo_parameter_value
8.13.8.3. get_exported_interface_sysinfo_parameters
8.13.8.4. get_interface_port_property
8.13.8.5. get_interface_ports
8.13.8.6. get_interface_properties
8.13.8.7. get_interface_property
8.13.8.8. get_interfaces
8.13.8.9. get_port_properties
8.13.8.10. remove_interface
8.13.8.11. set_exported_interface_sysinfo_parameter_value
8.13.8.12. set_interface_port_property
8.13.8.13. set_interface_property
8.13.9.1. set_validation_property
8.13.9.2. sync_sysinfo_parameters
8.13.9.3. validate_component
8.13.9.4. validate_component_interface
8.13.9.5. validate_connection
8.13.9.6. validate_instance
8.13.9.7. validate_instance_interface
8.13.9.8. validate_system
8.13.9.9. validate_component_footprint
8.13.9.10. reload_component_footprint
8.13.10.1. auto_assign_base_addresses
8.13.10.2. auto_assign_irqs
8.13.10.3. auto_assign_system_base_addresses
8.13.10.4. get_parameter_properties
8.13.10.5. lock_avalon_base_address
8.13.10.6. send_message
8.13.10.7. set_use_testbench_naming_pattern
8.13.10.8. unlock_avalon_base_address
8.13.10.9. get_testbench_dutname
8.13.10.10. get_use_testbench_naming_pattern
8.14.1. Connection Properties
8.14.2. Design Environment Type Properties
8.14.3. Direction Properties
8.14.4. Element Properties
8.14.5. Instance Properties
8.14.6. Interface Properties
8.14.7. Message Levels Properties
8.14.8. Module Properties
8.14.9. Parameter Properties
8.14.10. Parameter Status Properties
8.14.11. Parameter Type Properties
8.14.12. Port Properties
8.14.13. Project Properties
8.14.14. System Info Type Properties
8.14.15. Units Properties
8.14.16. Validation Properties
8.14.17. Interface Direction
8.14.18. File Set Kind
8.14.19. Access Type
8.14.20. Instantiation HDL File Properties
8.14.21. Instantiation Interface Duplicate Type
8.14.22. Instantiation Interface Properties
8.14.23. Instantiation Properties
8.14.24. Port Properties
8.14.25. VHDL Type
9.1.1.1. add_interface
9.1.1.2. add_interface_port
9.1.1.3. get_interfaces
9.1.1.4. get_interface_assignment
9.1.1.5. get_interface_assignments
9.1.1.6. get_interface_ports
9.1.1.7. get_interface_properties
9.1.1.8. get_interface_property
9.1.1.9. get_port_properties
9.1.1.10. get_port_property
9.1.1.11. set_interface_assignment
9.1.1.12. set_interface_property
9.1.1.13. set_port_property
9.1.1.14. set_interface_upgrade_map
9.1.5.1. add_documentation_link
9.1.5.2. get_module_assignment
9.1.5.3. get_module_assignments
9.1.5.4. get_module_ports
9.1.5.5. get_module_properties
9.1.5.6. get_module_property
9.1.5.7. send_message
9.1.5.8. set_module_assignment
9.1.5.9. set_module_property
9.1.5.10. add_hdl_instance
9.1.5.11. package
9.1.6.1. add_instance
9.1.6.2. add_connection
9.1.6.3. get_connections
9.1.6.4. get_connection_parameters
9.1.6.5. get_connection_parameter_value
9.1.6.6. get_instances
9.1.6.7. get_instance_interfaces
9.1.6.8. get_instance_interface_ports
9.1.6.9. get_instance_interface_properties
9.1.6.10. get_instance_property
9.1.6.11. set_instance_property
9.1.6.12. get_instance_properties
9.1.6.13. get_instance_interface_property
9.1.6.14. get_instance_parameters
9.1.6.15. get_instance_parameter_property
9.1.6.16. get_instance_parameter_value
9.1.6.17. get_instance_port_property
9.1.6.18. set_connection_parameter_value
9.1.6.19. set_instance_parameter_value
9.1.7.1. add_fileset
9.1.7.2. add_fileset_file
9.1.7.3. set_fileset_property
9.1.7.4. get_fileset_file_attribute
9.1.7.5. set_fileset_file_attribute
9.1.7.6. get_fileset_properties
9.1.7.7. get_fileset_property
9.1.7.8. get_fileset_sim_properties
9.1.7.9. set_fileset_sim_properties
9.1.7.10. create_temp_file
9.2.1. Script Language Properties
9.2.2. Interface Properties
9.2.3. SystemVerilog Interface Properties
9.2.4. Instance Properties
9.2.5. Parameter Properties
9.2.6. Parameter Type Properties
9.2.7. Parameter Status Properties
9.2.8. Port Properties
9.2.9. Direction Properties
9.2.10. Display Item Properties
9.2.11. Display Item Kind Properties
9.2.12. Display Hint Properties
9.2.13. Module Properties
9.2.14. Fileset Properties
9.2.15. Fileset Kind Properties
9.2.16. Callback Properties
9.2.17. File Attribute Properties
9.2.18. File Kind Properties
9.2.19. File Source Properties
9.2.20. Simulator Properties
9.2.21. Port VHDL Type Properties
9.2.22. System Info Type Properties
9.2.23. Design Environment Type Properties
9.2.24. Units Properties
9.2.25. Operating System Properties
9.2.26. Quartus.ini Type Properties
Visible to Intel only — GUID: mwh1409959236116
Ixiasoft
9.2.5. Parameter Properties
Type | Name | Description |
---|---|---|
Boolean | AFFECTS_ELABORATION | Set AFFECTS_ELABORATION to false for parameters that do not affect the external interface of the module. An example of a parameter that does not affect the external interface is isNonVolatileStorage. An example of a parameter that does affect the external interface is width. When the value of a parameter changes, if that parameter has set AFFECTS_ELABORATION=false, the elaboration phase (calling the callback or hardware analysis) is not repeated, improving performance. Because the default value of AFFECTS_ELABORATION is true, the provided HDL file is normally re-analyzed to determine the new port widths and configuration every time a parameter changes. |
Boolean | AFFECTS_GENERATION | The default value of AFFECTS_GENERATION is false if you provide a top-level HDL module; it is true if you provide a fileset callback. Set AFFECTS_GENERATION to false if the value of a parameter does not change the results of fileset generation. |
Boolean | AFFECTS_VALIDATION | The AFFECTS_VALIDATION property marks whether a parameter's value is used to set derived parameters, and whether the value affects validation messages. When set to false, this may improve response time in the parameter editor UI when the value is changed. |
String[] | ALLOWED_RANGES | Indicates the range or ranges that the parameter value can have. For integers, The ALLOWED_RANGES property is a list of ranges that the parameter can take on, where each range is a single value, or a range of values defined by a start and end value separated by a colon, such as 11:15. This property can also specify legal values and display strings for integers, such as {0:None 1:Monophonic 2:Stereo 4:Quadrophonic} meaning 0, 1, 2, and 4 are the legal values. You can also assign display strings to be displayed in the parameter editor for string variables. For example, ALLOWED_RANGES {"dev1:Cyclone IV GX""dev2: Stratix® V GT"}. |
String | DEFAULT_VALUE | The default value. |
Boolean | DERIVED | When true, indicates that the parameter value can only be set by the IP component, and cannot be set by the user. Derived parameters are not saved as part of an instance's parameter values. The default value is false. |
String | DESCRIPTION | A short user-visible description of the parameter, suitable for a tooltip description in the parameter editor. |
String[] | DISPLAY_HINT | Provides a hint about how to display a property. The following values are possible:
|
String | DISPLAY_NAME | This is the GUI label that appears to the left of this parameter. |
String | DISPLAY_UNITS | This is the GUI label that appears to the right of the parameter. |
Boolean | ENABLED | When false, the parameter is disabled, meaning that it is displayed, but greyed out, indicating that it is not editable on the parameter editor. |
String | GROUP | Controls the layout of parameters in GUI |
Boolean | HDL_PARAMETER | When true, the parameter must be passed to the HDL IP component description. The default value is false. |
String | LONG_DESCRIPTION | A user-visible description of the parameter. Similar to DESCRIPTION, but allows for a more detailed explanation. |
String | NEW_INSTANCE_VALUE | This property allows you to change the default value of a parameter without affecting older IP components that have did not explicitly set a parameter value, and use the DEFAULT_VALUE property. The practical result is that older instances continue to use DEFAULT_VALUE for the parameter and new instances use the value that NEW_INSTANCE_VALUE assigns. |
String | SV_INTERFACE_PARAMETER | This parameter is used in the SystemVerilog interface instantiation. Example: set_parameter_property my_parameter SV_INTERFACE_PARAMETER my_sv_interface |
String[] | SYSTEM_INFO | Allows you to assign information about the instantiating system to a parameter that you define. SYSTEM_INFO requires an argument specifying the type of information requested, <info-type> . |
String | SYSTEM_INFO_ARG | Defines an argument to be passed to a particular SYSTEM_INFO function, such as the name of a reset interface. |
(various) | SYSTEM_INFO_TYPE | Specifies one of the types of system information that can be queried. Refer to System Info Type Properties. |
(various) | TYPE | Specifies the type of the parameter. Refer to Parameter Type Properties. |
(various) | UNITS | Sets the units of the parameter. Refer to Units Properties. |
Boolean | VISIBLE | Indicates whether or not to display the parameter in the parameterization GUI. |
String | WIDTH | For a STD_LOGIC_VECTOR parameter, this indicates the width of the logic vector. |