DIVIDE-P2-UT

Divider IP Core User’s Guide June 2012 ipug108_01.0 Table of Contents Chapter 1. Introduction .......................................................................................................................... 3 Quick Facts ........................................................................................................................................................... 3 Features ................................................................................................................................................................ 3 Release Information .............................................................................................................................................. 3 Device Support...................................................................................................................................................... 3 Chapter 2. Functional Description ........................................................................................................ 4 Key Concepts........................................................................................................................................................ 4 Block Diagram....................................................................................................................................................... 4 Primary I/O ............................................................................................................................................................ 4 Timing Specifications ............................................................................................................................................ 5 Chapter 3. Parameter Settings .............................................................................................................. 7 Implementation...................................................................................................................................................... 8 Chapter 4. IP Core Generation............................................................................................................... 9 Licensing the IP Core............................................................................................................................................ 9 Getting Started ...................................................................................................................................................... 9 Configuring the Divider IP Core in IPexpress........................................................................................................ 9 IPexpress-Created Files and Top Level Directory Structure...................................................................... 12 Instantiating the Core ................................................................................................................................. 13 Running Functional Simulation .................................................................................................................. 13 Synthesizing and Implementing the Core in a Top-Level Design .............................................................. 13 Hardware Evaluation........................................................................................................................................... 14 Updating/Regenerating the IP Core .................................................................................................................... 14 Regenerating an IP Core in Diamond ........................................................................................................ 14 Chapter 5. Support Resources ............................................................................................................ 16 Lattice Technical Support.................................................................................................................................... 16 Online Forums............................................................................................................................................ 16 Telephone Support Hotline ........................................................................................................................ 16 E-mail Support ........................................................................................................................................... 16 Local Support ............................................................................................................................................. 16 Internet ....................................................................................................................................................... 16 References.......................................................................................................................................................... 16 .Revision History ................................................................................................................................................. 16 Appendix A. Resource Utilization ....................................................................................................... 17 LatticeECP3 Devices .......................................................................................................................................... 17 Ordering Part Number................................................................................................................................ 17 LatticeECP2M Devices ....................................................................................................................................... 17 Ordering Part Number................................................................................................................................ 17 LatticeECP2 Devices .......................................................................................................................................... 17 Ordering Part Number................................................................................................................................ 18 LatticeXP2 Devices ............................................................................................................................................. 18 Ordering Part Number................................................................................................................................ 18 © 2012 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as listed at www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice. IPUG108_01.0, June 2012 2 Divider IP Core User’s Guide Chapter 1: Introduction The Divider IP core is a one-clock divider which completes one integer division every clock. It supports signed or unsigned inputs and provides configurable output latency. Quick Facts Table 1-1. Divider IP Core Quick Facts Divider IP Core Configuration FPGA Families Supported Core Requirements Minimum Device Required Targeted Device Resource Utilization Resource Utilization Resource Utilization LatticeECP3™ LatticeXP2™ LFE3-17EA LFE2-6E LFXP2-5E LFE3-35EA-8FN672C LFE2-35E-7F672C LFXP2-30E-7F672C Configuration 20-bit numerator, 10-bit denominator, 20 output latency Registers 828 828 886 LUTs 311 311 368 Slices 446 446 484 Configuration 24-bit numerator, 12-bit denominator, 12 output latency Registers 586 586 619 LUTs 409 409 442 Slices 409 409 431 Configuration 32-bit numerator, 32-bit denominator, 32 output latency Registers 3127 3123 3137 1458 LUTs 1459 1459 Slices 1791 1788 1791 ® Lattice Diamond 2.0 Lattice Implementation Design Tool Support LatticeECP2/M Synthesis Synopsys® Synplify™ Pro for Lattice F-2012.03L Simulation Aldec® Active-HDL™ 9.1 Lattice Edition Mentor Graphics® ModelSim™ SE 6.3F Features • Supports signed or unsigned numerator and denominator • Supports numerator and denominator data width 4-64 • Supports forced positive remainder • Supports configurable output latency • Optional clock enable and data valid ports Release Information • Divider IP Core version 1.0 – Last updated May, 2012 Device Support • , LatticeECP3, LatticeECP2M™, LatticeECP2™ and LatticeXP2 FPGA Families IPUG108_01.0, June 2012 3 Divider IP Core User’s Guide Chapter 2: Functional Description Key Concepts The Divider IP core implements integer division with the formula: Numerator = Denominator * Quotient + Remainder Numerator and Denominator can be signed or unsigned integers. When either the Numerator or Denominator is a signed integer, Quotient and Remainder will also be in signed integer format. When the Remainder is configured to be “Always Positive Remainder”, the Remainder will be a positive signed integer value. Block Diagram Figure 2-1. Divider IP Core Block Diagram 1-bit Division 1-bit Division 1-bit Division N-3 N-2 N-1 1-bit Division 2 1-bit Division 1 1-bit Division 0 N stages The Divider IP core uses a non-restoring division algorithm to implement the integer division operation. There are N stages of 1-bit division in an integer division operation, where N is the width of the quotient. Each stage generates a 1-bit quotient and partial-remainder. In the last stage, the final quotient and remainder are generated. 1-bit division uses an adder-subtracter to compare the partial remainder and denominator to get a new partial remainder. Quotient-digit selection is based on the sign of the partial remainder. In the last stage, the partial remainder is corrected to get the final remainder. The Divider IP core supports configurable output latency. The latency can be any number of clock cycles from 1 to N. When latency is set to the value M, M stages of output registers are uniformly distributed into the N stages of 1bit division operation. The final division stage always has output registers. Primary I/O Figure 2-2. Divider IP Core I/O Diagram rstn clk ce dvalid_in Divider IP Core numerator quotient remainder denominator IPUG108_01.0, June 2012 dvalid_out 4 Divider IP Core User’s Guide Functional Description Table 2-1. Primary I/O Descriptions Port Size I/O Description rstn 1 I Asynchronous active-low reset signal clk 1 I Input clock ce 1 I Clock enable, active high General I/Os dvalid_in 1 I Optional input data valid signal, active-high numerator 4-64 I Input numerator value denominator 4-64 I Input denominator value 1 O Optional output data valid signal, active high quotient 4-64 O Output quotient remainder 4-64 O Output remainder dvalid_out Timing Specifications The Divider IP core is a one-clock divider. It can accept a numerator and denominator every clock cycle and generate a quotient and remainder every clock cycle. When the input numerator and denominator are in an unsigned format, the output quotient and remainder are in an unsigned format. When either the numerator or denominator is in a signed format, the output quotient and remainder are always in a signed format. Figure 2-3. Unsigned Integer Division with a Latency of 8 clk dvalid_in numerator 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 denominator 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 64 31 20 15 12 9 8 7 0 1 2 1 0 5 2 1 Latency = 8 dvalid_out quotient remainder Figure 2-4. Signed Integer Division with a Latency of 8 clk dvalid_in numerator 64 -63 62 -61 -60 59 -58 57 56 -55 54 -53 52 -51 50 49 denominator -1 2 3 -4 -5 -6 7 -8 -9 10 -11 12 -13 14 15 16 -64 -31 20 15 12 -9 -8 -7 0 -1 2 -1 0 5 -2 1 Latency = 8 dvalid_out quotient remainder IPUG108_01.0, June 2012 5 Divider IP Core User’s Guide Functional Description Figure 2-5. Signed Integer Division with a Positive Remainder clk dvalid_in numerator 64 -63 62 -61 -60 59 -58 57 56 -55 54 -53 52 -51 50 49 denominator -1 2 3 -4 -5 -6 7 -8 -9 10 -11 12 -13 14 15 16 -64 -32 20 16 12 -9 -9 -7 0 1 2 3 0 5 5 1 Latency = 8 dvalid_out quotient remainder IPUG108_01.0, June 2012 6 Divider IP Core User’s Guide Chapter 3: Parameter Settings This section describes how to generate the Lattice Divider IP core using the Diamond IPexpress™ tool. Refer to “IP Core Generation” on page 9 for a description of how to generate the IP core. The Divider configuration GUI is accessed via the IPexpress tool and provides an interface for setting the desired parameters and invoking the IP Core Generator. Since the values of some parameters affect the size of the core, the maximum value for these parameters may be limited by the size of the target device. Table 3-1 provides a list of user configurable parameters for the Divider IP core. Table 3-1. Divider IP Core Parameters Parameter Range/Options Default Numerator data type Unsigned, Signed Unsigned Denominator data type Unsigned, Signed Unsigned Numerator data width 4-64 20 Denominator data width 4-64 10 Output latency 1-64 20 Structure Always positive remainder Yes, No No Clock enable port Yes, No No Data valid ports Yes, No No Synthesis Options Frequency constraint (MHz) 1-400 250 Fanout limit 1-200 100 Resource sharing Yes, No Yes Pipelining and retiming Yes, No No IPUG108_01.0, June 2012 7 Divider IP Core User’s Guide Parameter Settings Implementation The Implementation tab provides settings for Divider structure and synthesis options. Figure 3-1. Implementation Tab • Numerator data type specifies the data type of input Numerator. • Denominator data type specifies the data type of input Denominator. • Numerator data width specifies the data width of input Numerator. • Denominator data width specifies the data width of input Denominator. • Output latency specifies the output latency of the Divider core. Its value can be between 1 and Numerator data width. • The Clock enable port check box specifies whether the core has a clock enable port. • The Data valid ports check box specifies whether the core has an input data valid and output data valid ports. • Frequency constraint sets the required clock frequency in MHz. This option applies to all of the clocks in the core. • Fanout limit sets the fanout limit value for the synthesis tool. • Resource sharing and Pipelining and retiming, if enabled, are synthesis directives that are used in the core generation. Users can adjust these options to get better timing results. IPUG108_01.0, June 2012 8 Divider IP Core User’s Guide Chapter 4: IP Core Generation This section provides information on how to generate the Divider IP core using the Diamond IPexpress tool, and how to include the core in a top-level design. Licensing the IP Core An IP core- and device-specific license is required to enable full, unrestricted use of the Divider IP core in a complete, top-level design. Instructions on how to obtain licenses for Lattice IP cores are provided on the Lattice website: www.latticesemi.com/products/intellectualproperty/aboutip/index.cfm. Users may download and generate the Divider IP core and fully evaluate the core through functional simulation and implementation (synthesis, map, place and route) without an IP license. The core supports Lattice’s IP hardware evaluation capability, which makes it possible to create versions of the IP core that operate in hardware for a limited time (approximately four hours) without requiring an IP license. See “Hardware Evaluation” on page 14 for further details. However, a license is required to enable timing simulation, to open the design in the Diamond design software and to generate bitstreams that do not include the hardware evaluation timeout limitation. Getting Started The Divider IP core is available for download from the Lattice IP Server using the IPexpress tool. The IP files are automatically installed using ispUPDATE technology in any user-specified directory. After the IP core has been installed, the IP core is available in the IPexpress GUI dialog box shown in Figure 4-1. To generate a specific IP core configuration, the user specifies: • Project Path – Path to the directory where the generated IP files will be located. • File Name – “username” designation given to the generated IP core and corresponding folders and files. • Module Output – Verilog or VHDL. • Device Family – Device family to which IP is to be targeted. Only families that support the particular IP core are listed. • Part Name – Specific targeted part within the selected device family. Configuring the Divider IP Core in IPexpress The Divider IP core configuration GUI is accessed via the Diamond IPexpress tool, and provides an interface for setting the desired parameters and invoking the IP core generator. The start-up IPexpress page allows the user to select the IP core to be generated, the project directory, the user designated module name, the design entry type, and the target device. The “File Name” will be used as the username in the IP core generation. The Divider IP core is found in IPexpress under IP > DSP, as shown in Figure 4-1. IPUG108_01.0, June 2012 9 Divider IP Core User’s Guide IP Core Generation Figure 4-1. IPexpress Dialog Box Important Note: File Name cannot be set to “divider_core,” as this name has been used in the internal design of the IP core. Note that if the IPexpress tool is called from within an existing project, Project Path, Module Output, Device Family and Part Name default to the specified project parameters. Refer to the IPexpress tool online help for further information. To create a custom configuration, the click the Customize button in the IPexpress tool dialog box to display the Divider IP core Configuration GUI, as shown in Figure 4-2. From this dialog box, the user can select the IP parameter options specific to their application. IPUG108_01.0, June 2012 10 Divider IP Core User’s Guide IP Core Generation Figure 4-2. Configuration GUI IPUG108_01.0, June 2012 11 Divider IP Core User’s Guide IP Core Generation IPexpress-Created Files and Top Level Directory Structure When the user clicks the Generate button in the IP Configuration dialog box, the IP core and supporting files are generated in the specified Project Path directory. The directory structure of the generated files is shown in Figure 43. This example shows the directory structure generated for the Divider IP core for a LatticeECP3 FPGA. Figure 4-3. Lattice Divider IP Core Directory Structure Table 4-1 provides a list of key files and directories created by the IPexpress tool and how they are used. The IPexpress tool creates several files that are used throughout the design cycle. The names of most of the created files are customized to the user’s module name specified in the IPexpress tool. Table 4-1. File List File Description .lpc This file contains the IPexpress tool options used to recreate or modify the core in the IPexpress tool. .ipx The IPX file holds references to all of the elements of an IP core or module after it is generated from the IPexpress tool. The file is used to bring in the appropriate files during the design implementation and analysis. It is also used to re-load parameter settings into the IP core/module generation GUI when an IP core/module is being regenerated. .ngo This file provides the synthesized IP core. _bb.v This file provides the synthesis black box for the user’s synthesis. _inst.v This file provides an instance template for Divider IP core. _beh.v This file provides the front-end simulation library for Divider IP core. Table 4-2 provides a list of key additional files providing IP core generation status information and command line generation capability are generated in the user's project directory. IPUG108_01.0, June 2012 12 Divider IP Core User’s Guide IP Core Generation Table 4-2. Additional Files File Description _generate.tcl This file is created when the GUI Generate button is pushed. This file may be run from the command line. _generate.log This is the synthesis and map log file. _gen.log This is the IPexpress IP generation log file. Instantiating the Core The generated Divider IP core package includes black-box (_bb.v) and instance (_inst.v) templates that can be used to instantiate the IP core in a top-level design. An example RTL top-level reference source file that can be used as an instantiation template for the IP core is provided in \\divider_eval\\src\rtl\top. Users may also use this top-level reference as the starting template for the top level of their complete design. Running Functional Simulation Simulation support for the Divider IP core is provided for the Aldec Active-HDL (Verilog and VHDL) simulator and the Mentor Graphics ModelSim simulator. The functional simulation includes a configuration-specific behavioral model of the Divider IP core. The test bench sources stimulus to the core and monitors output from the core. The generated IP core package includes the configuration-specific behavior model (_beh.v) for functional simulation in the “Project Path” root directory. The simulation script supporting ModelSim evaluation simulation is provided in \\divider_eval\\sim\modelsim\scripts. The simulation script supporting Active-HDL evaluation simulation is provided in \\divider_eval\\sim\aldec\scripts. Both Modelsim and Active-HDL simulation is supported via test bench files provided in \\divider_eval\testbench. Models required for simulation are provided in the corresponding \models folder. Users may run the Active-HDL evaluation simulation by following the steps below: 1. Open Active-HDL. 2. Under the Tools tab, select Execute Macro. 3. Browse to folder \\divider_eval\\sim\aldec\scripts and execute one of the "do" scripts shown. Users may run the ModelSim evaluation simulation by following the steps below: 1. Open ModelSim. 2. Under the File tab, select Change Directory and choose the folder \divider_eval\ \sim\modelsim\scripts. 3. Under the Tools tab, select Execute Macro and execute ..\scripts\_rtl_se.do. Note: When the simulation is complete, a pop-up window will appear asking “Are you sure you want to finish?” Choose No to analyze the results. Choosing Yes closes ModelSim. Synthesizing and Implementing the Core in a Top-Level Design Synthesis support for the Divider IP core is provided for Mentor Graphics Precision RTL or Synopsys Synplify. The Divider IP core itself is synthesized and is provided in NGO format when the IP core is generated in IPexpress. Users may synthesize the core in their own top-level design by instantiating the core in their top-level design as described previously and then synthesizing the entire design with either Synplify or Precision RTL synthesis. IPUG108_01.0, June 2012 13 Divider IP Core User’s Guide IP Core Generation The top-level file _eval_top.v provided in \\divider_eval\\src\top supports the ability to implement the Divider IP core in isolation. Push-button implementation of this top-level design with either Synplify or Precision RTL synthesis is supported via the project files _eval.ldf located in the \\divider_eval\\impl\synplify and \\divider_eval\ \impl\precision directories, respectively. To use this project file in the Diamond design software: 1. Choose File > Open > Project. 2. Browse to \\divider_eval\\impl\(synplify or precision) in the Open Project dialog box. 3. Select and open .ldf. At this point, all of the files needed to support top-level synthesis and implementation will be imported to the project. 4. Select the Process tab in the left-hand GUI window. 5. Implement the complete design via the standard Diamond GUI flow. Hardware Evaluation The Divider IP core supports the Lattice IP hardware evaluation capability, which makes it possible to create versions of the IP core that operate in hardware for a limited period of time (approximately four hours) without requiring the purchase of an IP license. It may also be used to evaluate the core in hardware in user-defined designs. Choose Project > Active Strategy > Translate Design Settings. The hardware evaluation capability may be enabled or disabled in the Strategy dialog box. It is enabled by default. Updating/Regenerating the IP Core By regenerating an IP core with the IPexpress tool, the user can modify any of its settings including device type, design entry method, and any of the options specific to the IP core. Regenerating can be done to modify an existing IP core or to create a new but similar one. Regenerating an IP Core in Diamond To regenerate an IP core in Diamond: 1. In IPexpress, click the Regenerate button. 2. In the Regenerate view of IPexpress, choose the IPX source file of the module or IP you wish to regenerate. 3. IPexpress shows the current settings for the module or IP in the Source box. Make your new settings in the Target box. 4. If you want to generate a new set of files in a new location, set the new location in the IPX Target File box. The base of the file name will be the base of all the new file names. The IPX Target File must end with an .ipx extension. 5. Click Regenerate. The module’s dialog box opens showing the current option settings. 6. In the dialog box, choose the desired options. To get information about the options, click Help. Also, check the About tab in IPexpress for links to technical notes and user’s guides. IP cores may come with additional information. As the options change, the schematic diagram of the module changes to show the I/O and the device resources the module will need. 7. To import the module into your project, if it’s not already there, select Import IPX to Diamond Project (this is not available in stand-alone mode). IPUG108_01.0, June 2012 14 Divider IP Core User’s Guide IP Core Generation 8. Click Generate. 9. Check the Generate Log tab to check for warnings and error messages. 10.Click Close. The IPexpress package file (.ipx) supported by Diamond contains references to all of the elements of the generated IP core required to support simulation, synthesis and implementation. The IP core may be included in a user's design by importing the .ipx file to the associated Diamond project. To change the option settings of a module or IP core that is already in a design project, double-click the module’s .ipx file in the File List view. This opens IPexpress and the module’s dialog box showing the current option settings. Then go to step 6 above. IPUG108_01.0, June 2012 15 Divider IP Core User’s Guide Chapter 7: Support Resources This chapter contains information about Lattice Technical Support, additional references, and document revision history. Lattice Technical Support There are a number of ways to receive technical support. Online Forums The first place to look is Lattice Forums (www.latticesemi.com/support/forums.cfm). Lattice Forums contain a wealth of knowledge and are actively monitored by Lattice Applications Engineers. Telephone Support Hotline Receive direct technical support for all Lattice products by calling Lattice Applications from 5:30 a.m. to 6 p.m. Pacific Time. • For USA & Canada: 1-800-LATTICE (528-8423) • For other locations: +1 503 268 8001 In Asia, call Lattice Applications from 8:30 a.m. to 5:30 p.m. Beijing Time (CST), +0800 UTC. Chinese and English language only. • For Asia: +86 21 52989090 E-mail Support • techsupport@latticesemi.com • techsupport-asia@latticesemi.com Local Support Contact your nearest Lattice sales office. Internet www.latticesemi.com References • HB1009, LatticeECP3 Family Handbook • HB1003, LatticeECP2/M Family Handbook • HB1004, LatticeXP2 Family Handbook .Revision History Date Document Version IP Core Version June 2012 01.0 1.0 IPUG108_01.0, June 2012 Change Summary Initial release. 16 Divider IP Core User’s Guide Appendix A: Resource Utilization This appendix gives resource utilization information for Lattice FPGAs using the Divider IP core. IPexpress is the Lattice IP configuration utility, and is included as a standard feature of the Diamond design tools. Details regarding the usage of IPexpress can be found in the IPexpress and Diamond help system. For more information on the Diamond design tools, visit the Lattice web site at www.latticesemi.com/software. LatticeECP3 Devices Table A-1. Performance and Resource Utilization1 Numerator Data Type Numerator Denominator Denominator Data Width Data Type Data Width Output Latency Registers LUTs Slices fMAX Unsigned 20 Unsigned 10 20 828 311 446 316 Unsigned 24 Unsigned 12 12 586 409 409 218 Signed 32 Signed 32 32 3127 1459 1791 248 1. Performance and utilization data are generated targeting a LFE3-35EA-8FN672C device using Lattice Diamond 2.0 and Synplify Pro F2012.03L software. Performance may vary when using a different software version or targeting a different device density or speed grade within the LatticeECP3 family. Ordering Part Number The Ordering Part Number (OPN) for the Divider IP core targeting LatticeECP3 devices is DIVIDE-E3-U. LatticeECP2M Devices Table A-2. Performance and Resource Utilization1 Numerator Data Type Numerator Denominator Denominator Data Width Data Type Data Width Output Latency Registers LUTs Slices fMAX 20 828 311 446 305 Unsigned 20 Unsigned 10 Unsigned 24 Unsigned 12 12 586 409 409 210 Signed 32 Signed 32 32 3123 1459 1788 232 1. Performance and utilization data are generated targeting a LFE2M35E-7F672C device using Lattice Diamond 2.0 and Synplify Pro F2012.03L software. Performance may vary when using a different software version or targeting a different device density or speed grade within the LatticeECP2M family. Ordering Part Number The Ordering Part Number (OPN) for Divider IP core targeting LatticeECP2M devices is DIVIDE-PM-U. LatticeECP2 Devices Table A-3. Performance and Resource Utilization1 Numerator Data Type Numerator Denominator Denominator Data Width Data Type Data Width Output Latency Registers LUTs Slices fMAX 20 828 311 446 301 Unsigned 20 Unsigned 10 Unsigned 24 Unsigned 12 12 586 409 409 211 Signed 32 Signed 32 32 3123 1459 1788 217 1. Performance and utilization data are generated targeting a LFE2-35E-7F672C device using Lattice Diamond 2.0 and Synplify Pro F2012.03L software. Performance may vary when using a different software version or targeting a different device density or speed grade within the LatticeECP2 family. IPUG108_01.0, June 2012 17 Video Frame Buffer IP Core User’s Guide Resource Utilization Ordering Part Number The Ordering Part Number (OPN) for Divider IP core targeting LatticeECP2 devices is DIVIDE-P2-U. LatticeXP2 Devices Table A-4. Performance and Resource Utilization1 Numerator Data Type Numerator Denominator Denominator Data Width Data Type Data Width Output Latency Registers LUTs Slices fMAX Unsigned 20 Unsigned 10 20 828 311 446 281 Unsigned 24 Unsigned 12 12 586 409 409 211 Signed 32 Signed 32 32 3123 1459 1788 202 1. Performance and utilization data are generated targeting a LFE2M35E-7F672C device using Lattice Diamond 2.0 and Synplify Pro F2012.03L software. Performance may vary when using a different software version or targeting a different device density or speed grade within the LatticeECP2M family. Ordering Part Number The Ordering Part Number (OPN) for Divider IP core targeting LatticeXP2 devices is DIVIDE-X2-U. IPUG108_01.0, June 2012 18 Divider IP Core User’s Guide