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STORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. SOFTWARE MIGRATION / SPEEDGOAT TOOLS / SPEEDGOAT I/O Software Migration. Before you can connect your Speedgoat real-time target machine to Simulink Real-Time in MATLAB release R2020b and later, the target machine must be configured for the new real-timeoperating system.
SPEEDGOAT - IO203: DIGITAL TTL I/O MODULE WITH 64 LINES This I/O module is a dedicated digital I/O module providing a total of 64 TTL channels. The TTL transceivers are TTL and CMOS/TTL compatible and can be configured as CMOS compliant with the Setup driver block. Each of the 64 channels can be individually programmed as input or output. The 64 channels are separated into two groups of 32 channels. SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time ™ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time ™ empowers you to extend yourSimulink
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Introduction. The speedgoat.kernelTransfer tool updates the kernel and the network settings of the target machine.. Speedgoat real-time target machines are pre-configured to store the kernel image on the main drive. However, you can also use the network boot option to load the kernel image on-the-fly using the dedicated server integrated in the Simulink Real-Time tools. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. SOFTWARE MIGRATION / SPEEDGOAT TOOLS / SPEEDGOAT I/O Software Migration. Before you can connect your Speedgoat real-time target machine to Simulink Real-Time in MATLAB release R2020b and later, the target machine must be configured for the new real-timeoperating system.
SPEEDGOAT - IO203: DIGITAL TTL I/O MODULE WITH 64 LINES This I/O module is a dedicated digital I/O module providing a total of 64 TTL channels. The TTL transceivers are TTL and CMOS/TTL compatible and can be configured as CMOS compliant with the Setup driver block. Each of the 64 channels can be individually programmed as input or output. The 64 channels are separated into two groups of 32 channels. SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time ™ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time ™ empowers you to extend yourSimulink
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Introduction. The speedgoat.kernelTransfer tool updates the kernel and the network settings of the target machine.. Speedgoat real-time target machines are pre-configured to store the kernel image on the main drive. However, you can also use the network boot option to load the kernel image on-the-fly using the dedicated server integrated in the Simulink Real-Time tools. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Introduction. The speedgoat.kernelTransfer tool updates the kernel and the network settings of the target machine.. Speedgoat real-time target machines are pre-configured to store the kernel image on the main drive. However, you can also use the network boot option to load the kernel image on-the-fly using the dedicated server integrated in the Simulink Real-Time tools. SPEEDGOAT - IO323: CONFIGURABLE FPGA-BASED I/O MODULE WITH Frequencies per channel up to 100 KSPS are possible. Each analog output channel can drive a load with maximum load current of ±1mA and a capacitance of 1000pF. Digital I/O. Front I/O. 48 x ESD protected front TTL I/O lines, 3.3/5V or ground, direction configurable by line. Maximum current: +/- 32mA.IO643 - SPEEDGOAT
The IO643 I/O module is a CANopen module to connect real-time target machines to external industrial devices such as motor controllers, sensors, I/O stations and robots. The IO643 handles the complete data exchange between the connected CANopen slaves and the real-time application. The data exchange is processed via a dual-port memory. WEBINAR | RAPID CONTROL PROTOTYPING FOR POWER ELECTRONICS This recorded webinar shows how power electronics control engineers can use rapid control prototyping (RCP) with Simulink Real-Time™ and Speedgoat real-time target machines to validate Simulink ® algorithms against electric motor and power converter prototype systems. Engineers use RCP to test C and HDL code before deploying it to a microcontroller or FPGA controlling a power electronics SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Note: Installation issues are typically related to permission settings, restrictive security settings such as for firewalls and virus scanners, custom tools to manage Ethernet networks on the development computer which may block communications with the target machine, and VPN settings (local LAN networks need to be enabled). IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface GETTING STARTED / SPEEDGOAT I/O BLOCKSET V9.2.0.1 Getting Started with Simulink Real-Time. To learn how to set up and configure your real-time target machine and development computer, consult the MathWorks integrated or web documentation on getting started with Simulink Real-Time. FADEC SIMULATION CONTROLS AND TESTING FADEC Simulation, Controls and Testing. Achieve full test coverage quickly for your full authority digital engine controller using digital twins and HIL test automation. A full authority digital engine controller (FADEC) is used to fully control modern piston or jet engines, which are too complex to be operated manually ormechanically.
UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O AND Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. SOFTWARE MIGRATION / SPEEDGOAT TOOLS / SPEEDGOAT I/O Software Migration. Before you can connect your Speedgoat real-time target machine to Simulink Real-Time in MATLAB release R2020b and later, the target machine must be configured for the new real-timeoperating system.
MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT -SIMULINK REAL-TIME WORKFLOW A typical real-time simulation and testing environment using Simulink Real-Time. Leveraging a Model-based Design approach with Simulink and Speedgoat target machines enables you to run, monitor, and tune real-time applications following three powerful steps: Design your controls, vision, DSP, or plant model in Simulink, and drag and drop SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O AND Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. SOFTWARE MIGRATION / SPEEDGOAT TOOLS / SPEEDGOAT I/O Software Migration. Before you can connect your Speedgoat real-time target machine to Simulink Real-Time in MATLAB release R2020b and later, the target machine must be configured for the new real-timeoperating system.
MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT -SIMULINK REAL-TIME WORKFLOW A typical real-time simulation and testing environment using Simulink Real-Time. Leveraging a Model-based Design approach with Simulink and Speedgoat target machines enables you to run, monitor, and tune real-time applications following three powerful steps: Design your controls, vision, DSP, or plant model in Simulink, and drag and drop SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Introduction. The speedgoat.kernelTransfer tool updates the kernel and the network settings of the target machine.. Speedgoat real-time target machines are pre-configured to store the kernel image on the main drive. However, you can also use the network boot option to load the kernel image on-the-fly using the dedicated server integrated in the Simulink Real-Time tools. SOFTWARE MIGRATION / SPEEDGOAT TOOLS / SPEEDGOAT I/O Software Migration. Before you can connect your Speedgoat real-time target machine to Simulink Real-Time in MATLAB release R2020b and later, the target machine must be configured for the new real-timeoperating system.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Kernel Network Transfer. Speedgoat real-time target machines are pre-configured with a default kernel. Using the Speedgoat utility speedgoat.kernelTransfer, a SPEEDGOAT - IO203: DIGITAL TTL I/O MODULE WITH 64 LINES This I/O module is a dedicated digital I/O module providing a total of 64 TTL channels. The TTL transceivers are TTL and CMOS/TTL compatible and can be configured as CMOS compliant with the Setup driver block. Each of the 64 channels can be individually programmed as input or output. The 64 channels are separated into two groups of 32 channels. SIMULINK REAL-TIME-TARGET MACHINES Real-Time Target Machines. Speedgoat offers a range of high performance multi-core, multi CPU target computers (target machines) with i3 and i7 CPUs up to 4.2 GHz, and up to 20 cores. Each is optimized for a different application area, from mobile controller prototyping (RCP) to multi-target rack systems for Hardware-in-the-Loop (HIL). SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. WEBINAR | RAPID CONTROL PROTOTYPING FOR POWER ELECTRONICS This recorded webinar shows how power electronics control engineers can use rapid control prototyping (RCP) with Simulink Real-Time™ and Speedgoat real-time target machines to validate Simulink ® algorithms against electric motor and power converter prototype systems. Engineers use RCP to test C and HDL code before deploying it to a microcontroller or FPGA controlling a power electronicsIO643 - SPEEDGOAT
The IO643 I/O module is a CANopen module to connect real-time target machines to external industrial devices such as motor controllers, sensors, I/O stations and robots. The IO643 handles the complete data exchange between the connected CANopen slaves and the real-time application. The data exchange is processed via a dual-port memory. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. IO323 SETUP / IO323 / FPGA I/O MODULES / FPGA TECHNOLOGY Description. The Setup block dialog box can be used to configure all the supported I/O types of this module, and therefore impacts on all the other driver blocks.. Your model must contain one Setup block for each configurable FPGA I/O module in your target machine. SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O AND Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O AND Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
ABOUT SPEEDGOAT
At Speedgoat, we specialize in state-of-the-art real-time systems for real-time testing using Simulink ® and Simulink Real-Time™, the real-time operating system from MathWorks.. Together, our solutions allow our customers to continuously verify and validate their designs along a complete Model-Based Design workflow, including requirements specification, simulation, rapid control prototyping SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM SPEEDGOAT DOCUMENTATION Speedgoat documentation features MathWorks look-and-feel, MATLAB help integration and crosslinks with Simulink Real-Time from R2018a HARDWARE-IN-THE-LOOP SIMULATION Hardware-in-the-Loop Simulation. Testing control algorithms can be time-consuming, expensive, and potentially unsafe if you decide to test against the real system. To remain competitive and deliver high-quality controller software, test engineers have replaced traditional testing methods with Hardware-in-the-Loop (HIL) testing. MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT - IO144: SIMULTANEOUS SAMPLING 16-BIT ANALOG 2A144X. IO144. IO144 with 16 single-ended analog current/voltage outputs and 20 digital I/O. Shielded round 68-pin MDR to 68-pin MDR cable, 1.82m (6ft) long. 68-pin terminal board with DIN-rail mount. Driver block library for Simulink Real-Time. Installation into real-time target machine. Key to X in Item ID. SPEEDGOAT - IO306: DIGITAL (PWM, ENCODER, SPI, I2C The IO306 I/O module is a flexible, cost-effective and configurable Spartan ® -6 FPGA providing 25k logic cells. This I/O module features 64 ESD-protected TTL lines which can be individually programmed as inputs or outputs. Each TTL I/O line also has a pull resistor and the standard pull voltage level is SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
ABOUT SPEEDGOAT
At Speedgoat, we specialize in state-of-the-art real-time systems for real-time testing using Simulink ® and Simulink Real-Time™, the real-time operating system from MathWorks.. Together, our solutions allow our customers to continuously verify and validate their designs along a complete Model-Based Design workflow, including requirements specification, simulation, rapid control prototyping SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM SPEEDGOAT DOCUMENTATION Speedgoat documentation features MathWorks look-and-feel, MATLAB help integration and crosslinks with Simulink Real-Time from R2018a HARDWARE-IN-THE-LOOP SIMULATION Hardware-in-the-Loop Simulation. Testing control algorithms can be time-consuming, expensive, and potentially unsafe if you decide to test against the real system. To remain competitive and deliver high-quality controller software, test engineers have replaced traditional testing methods with Hardware-in-the-Loop (HIL) testing. MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT - IO144: SIMULTANEOUS SAMPLING 16-BIT ANALOG 2A144X. IO144. IO144 with 16 single-ended analog current/voltage outputs and 20 digital I/O. Shielded round 68-pin MDR to 68-pin MDR cable, 1.82m (6ft) long. 68-pin terminal board with DIN-rail mount. Driver block library for Simulink Real-Time. Installation into real-time target machine. Key to X in Item ID. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT TIMING AND SYNCHRONIZATION SOLUTIONS FOR SIMULINK Create distributed and deterministic real-time applications with Speedgoat timing and synchronization solutions. SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
ABOUT SPEEDGOAT
At Speedgoat, we specialize in state-of-the-art real-time systems for real-time testing using Simulink ® and Simulink Real-Time™, the real-time operating system from MathWorks.. Together, our solutions allow our customers to continuously verify and validate their designs along a complete Model-Based Design workflow, including requirements specification, simulation, rapid control prototyping SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM SPEEDGOAT DOCUMENTATION Speedgoat documentation features MathWorks look-and-feel, MATLAB help integration and crosslinks with Simulink Real-Time from R2018a HARDWARE-IN-THE-LOOP SIMULATION Hardware-in-the-Loop Simulation. Testing control algorithms can be time-consuming, expensive, and potentially unsafe if you decide to test against the real system. To remain competitive and deliver high-quality controller software, test engineers have replaced traditional testing methods with Hardware-in-the-Loop (HIL) testing. MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT - IO144: SIMULTANEOUS SAMPLING 16-BIT ANALOG 2A144X. IO144. IO144 with 16 single-ended analog current/voltage outputs and 20 digital I/O. Shielded round 68-pin MDR to 68-pin MDR cable, 1.82m (6ft) long. 68-pin terminal board with DIN-rail mount. Driver block library for Simulink Real-Time. Installation into real-time target machine. Key to X in Item ID. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT TIMING AND SYNCHRONIZATION SOLUTIONS FOR SIMULINK Create distributed and deterministic real-time applications with Speedgoat timing and synchronization solutions. SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
SPEEDGOAT - THE QUICKEST PATH TO REAL-TIME SIMULATION ANDAPPLICATIONS & INDUSTRIESACADEMIAPRODUCTS & SERVICESLEARN & SUPPORTUSERSTORIESCOMPANY
Real-time simulation and testing solutions for MATLAB® & Simulink®. Configurable real-time systems for Rapid Control Prototyping and Hardware-in-the-Loop simulations. SPEEDGOAT - SIMULINK REAL-TIME COMPUTERS (PC), I/O ANDMATLAB SIMULINK REAL TIMESIMULINK REAL TIME EXAMPLE Speedgoat real-time target machines and Simulink Real-Time™ are expressly designed to work together to create real-time systems for desktop, lab, and field environments. A real-time target system typically consists of: A real-time target machine. I/O modules. Communications protocols support. Simulink programmable FPGAs. BASELINE REAL-TIME TARGET MACHINE The Baseline real-time target machine with an Intel 2.0 GHz quad core CPU and optional FPGAs is MathWorks and Speedgoat's entry-level solution to real-time simulation and testing using MATLAB & Simulink. This light, rugged and high-performant target machine is the perfect solution for running complex models requiring just a few hundred I/Ochannels.
SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE At least one real-time target machine serial number is required to request a Speedgoat Customer Portal account. The four-digit serial number is visible on the label attached to the target machine. Additional information. Add any additional information that may be required to identify your account (e.g., if you are not the originalowner of the
SPEEDGOAT I/O BLOCKSET V9.2.0.1 Speedgoat Real-time target machines work seamlessly with Simulink Real-Time â„¢ to create real-time systems for desktop, lab and field environments. Typical applications include rapid control prototyping, DSP and vision system prototyping, and hardware-in the loop (HIL) simulation. Simulink Real-Time â„¢ empowers you to extend yourSimulink
SPEEDGOAT - IO991: I/O MODULE FOR BATTERY EMULATION MTBF (Mean Time Between Failure) - MTBF values shown are based on calculation according to MIL-HDBK-217F and MIL-HDBK-217F Notice 2; Environment: GB 20°C. The MTBF calculation is based on component FIT rates provided by the component suppliers. If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for the FIT rate calculation. TARGET MIGRATION (R2020B) Target Migration to R2020b and Beyond. In MATLAB ® R2020b, MathWorks ® and Speedgoat introduce a major update for Simulink ® Real-Timeâ„¢. Update your real-time target machine with the new 64-bit POSIX real-time operating system. Learn more about the R2020b Simulink Real-Time Major Update. IO342 I2C CONFIGURATION / CONFIGURATION BLOCKS / SIMULINK Speedgoat IO342 I2C configuration. Speedgoat IO342 I2C configuration — The Speedgoat IO342 I2C configuration driver block is used to configure the primary and secondary FMC plug-in and the on-board clock oscillator for the FireFly interface UNINSTALL / SPEEDGOAT API / SPEEDGOAT TOOLS / SPEEDGOAT I Leading provider of x86 / FPGA real-time computers with I/O, to test applications created from Simulink. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
ABOUT SPEEDGOAT
At Speedgoat, we specialize in state-of-the-art real-time systems for real-time testing using Simulink ® and Simulink Real-Time™, the real-time operating system from MathWorks.. Together, our solutions allow our customers to continuously verify and validate their designs along a complete Model-Based Design workflow, including requirements specification, simulation, rapid control prototyping SPEEDGOAT - FPGA I/O MODULES, CODE MODULES, AND SIMULINK Speedgoat FPGA I/O modules offer the lowest-latency interconnections as well as support for hundreds of fast analog and digital I/O and tens of multi-gigabit transceivers to implement controls and plant simulation algorithms designed with Simulink, and to process, monitor, tune, log, and replay analog, digital, or vision data. FPGA code modules provide additional functionality such as for PWM SPEEDGOAT DOCUMENTATION Speedgoat documentation features MathWorks look-and-feel, MATLAB help integration and crosslinks with Simulink Real-Time from R2018a HARDWARE-IN-THE-LOOP SIMULATION Hardware-in-the-Loop Simulation. Testing control algorithms can be time-consuming, expensive, and potentially unsafe if you decide to test against the real system. To remain competitive and deliver high-quality controller software, test engineers have replaced traditional testing methods with Hardware-in-the-Loop (HIL) testing. MOBILE - RUGGED SIMULINK REAL-TIME COMPUTER FOR IN-VEHICLE Mobile real-time target machine. The Mobile real-time target machine with Intel i3 and i7 CPUs and optional FPGAs is Speedgoat's mainstay target computer for field and in-vehicle use, confined areas, or harsh environments. This high-performance target machine likes being moved around, from site to site, from task to task. PERFORMANCE REAL-TIME-TARGET MACHINE The Performance real-time target machine with Intel i3, i7 or Xeon CPUs and optional FPGAs is Speedgoat's mainstay target computer for office and lab use and can be placed on a desk or installed in a rack. It is used in a broad range of application areas and industry sectors, such as vision and image processing, rapid control prototyping or plant simulation with hardware-in-the-loop (HIL). SPEEDGOAT - IO144: SIMULTANEOUS SAMPLING 16-BIT ANALOG 2A144X. IO144. IO144 with 16 single-ended analog current/voltage outputs and 20 digital I/O. Shielded round 68-pin MDR to 68-pin MDR cable, 1.82m (6ft) long. 68-pin terminal board with DIN-rail mount. Driver block library for Simulink Real-Time. Installation into real-time target machine. Key to X in Item ID. SPEEDGOAT - SIMULINK X86 AND FPGA REAL-TIME HARDWARE Set the Compiler. The mex -setup command sets the default compiler for Simulink Real-Time builds, provided that the MEX compiler is supported by MathWorks.. We recommend to use the same compiler for MEX-file compilation and for Simulink Real-Time builds. SSI SLAVE V2 / SSI / FPGA CODE MODULES / FPGA TECHNOLOGY SSI - Slave v2. SSI - Slave v2 — The SSI Slave driver block configures the data that will be sent to a SSI Master device whenrequired.
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Hardware-in-the-loop*
Rapid Control Prototyping*
Audio
*
Vision
*
Structural Test
*
Embedded
*
Virtual Commissioning*
Power Hardware-in-the-Loop*
Industries
*
Automotive
*
Vehicle Dynamics and Chassis Controls*
Powertrain
*
Infotainment and Multimedia system design simulation and testing*
Full Vehicle Simulation*
Aerospace
*
Developing and Testing of a Flight Controller*
UAV Modeling and Testing*
More Electric Aircraft*
FADEC Simulation Controls and Testing*
Hybrid Aircraft Simulation Control and Testing*
Bypassing
*
Civil Engineering
*
Consumer Electronics*
Audio Simulation Control and Testing*
Industrial Automation & Machinery*
Automated PLC Testing*
Prototyping of Industrial Controls and Equipment*
Marine
*
Medical Devices
*
Rehabilitation Equipment*
Robot Assisted Surgery*
Physics R&D
*
Power Electronics
*
HIL Testing of Grid-Side Converters*
HIL Testing of Electric Motor Controls*
HIL Testing of Power Electronics*
HIL Testing of Battery Management Systems*
Power Systems
*
Railway
*
Robotics
*
Academia
*
Academia
*
Collaboration
*
Research
*
Classroom & Lab Solutions*
Products & Services
*
Real-Time Target Machines*
Performance
*
Capabilities
*
Mobile
*
Capabilities
*
Baseline
*
Capabilities
*
Unit
*
Capabilities
*
Custom Rack System
*
Audio
*
FPGA Technology
*
Programmable FPGAs
*
Configurable FPGAs
*
FPGA Code Modules
*
I/O Connectivity
*
Analog
*
Audio & Speech
*
Battery Management Systems*
Digital
*
PWM
*
Encoders
*
LVDT, RVDT
*
Synchro & Resolver
*
Temperature & Strain*
Vibration
*
Fault Insertion
*
Relays
*
Resistors
*
Time and Synchronization*
Communications Protocols*
CAN FD
*
CAN & SAE J1939
*
CANopen
*
SAE J1939
*
LIN
*
FlexRay
*
XCP over Ethernet
*
Shared Memory
*
Aurora
*
ARINC 429 & 629
*
AFDX (ARINC 644 Pt 7)*
MIL-STD-1553
*
I2C
*
SPI
*
SDLC/HDLC
*
EtherCAT
*
EtherNet/IP
*
Real-Time UDP
*
PTP IEEE 1588
*
TCP/IP
*
Serial
*
Modbus RTU
*
Modbus TCP
*
POWERLINK
*
PROFIBUS
*
PROFINET
*
DNP3
*
GNSS (GPS, ...)
*
Camera Link
*
USB Webcams
*
MVB/WTB for Simulink*
Automotive Communication Protocols*
Services
*
Jumpstart Workshops
*
Warranty & Maintenance*
Engineering (NRE)
*
Acceptance Testing (FAT/SAT)*
Demo Kits
*
Getting Started Demo*
Electric Motor Control*
Hil with TI microcontroller*
External Modules and Accessories*
Terminal Boards
*
Cables
*
Panels and Boxes
*
IO334 I/O Box
*
Learn & Support
*
Success Stories
*
Company
*
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