This design and analysis tool achieves high application performance through efficient threading, vectorization, and memory use, and GPU offload on current and future Intel hardware. It supports C, C++, Fortran, DPC++, OpenMP, and Python.
Intel Thermal Analysis Tool Free Download TOP
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It gives you access to save your results as an XML, text file, or snapshot to share them easily. Check the specs of your computer and see whether it needs diagnosis for any issues. The tool helps you boost the performance of PCs without upgrading their hardware. Download the free version to get advanced PC insights or buy the tool to get more features.
CULV5 is an analysis tool for concrete box culverts. The program determines the forces acting on each of the different members of the culvert using the direct stiffness method. The user provides input data for loading conditions, structure geometry, and member sizes. The program outputs the member forces for use in either a working stress design or a load factor design in accordance with the AASHTO Standard Specifications for Highway Bridges, 17th Ed. for highway loadings, and AREMA 2006 in the case of E72 and E80 loadings.
Our award-winning platform allows you to perform data analysis and visualization easily. It has become an integral tool in many national laboratories, universities, and commercial settings. It can run on anything from supercomputers to analyze exascale datasets to laptops for smaller-sized data. ParaView 5.11.0 is the latest version to download.
This tool kit contains the Window-based HSETT utility used to initiate test modes through an xHCI controller. xHSETT also enables electrical testing for Enhanced SuperSpeed products. Detailed test procedures for high-speed host, hub and device electrical testing, tailored to common test equipment, can be downloaded here.
This tool kit contains the Window-based HSETT utility used to initiate test modes on an EHCI host controller. Detailed test procedures for high-speed host, hub and device electrical testing, tailored to common test equipment, can be downloaded here. A USB Electrical Analysis Tool is available separately for download (see USBET below). The procedures for legacy testing can be found in the USB-IF Compliance Program area. This software provided courtesy of Intel Corporation.
USBET20 is a stand-alone electrical signal analysis tool for USB Compliance testing. USBET20 is the official compliance electrical analysis tool that performs pass/fail assessments on signal quality and inrush current data captured from an oscilloscope.
NOTE 1: The only official analysis tool for certifying signal quality and inrush current is USBET20 published by the USB-IF. Some of the approved oscilloscope test solutions use proprietary software to assess signal quality and inrush current events. Please be sure to run captured signal quality and inrush current test data through USBET20 for an official assessment of the measurement.NOTE 2: The USBHSET tool works on Windows 7 and above only.
SuperMUTT The Microsoft SuperMUTT operates as a Full Speed, High Speed, and SuperSpeed compliance device. XHCICV and USB3CV can programmatically change the SuperMUTT to operate at the desired speed. We recommend using the SuperMUTT instead of the older compliance devices. Use SuperMUTT firmware version 57 or later. The firmware updating utility can be downloaded here or directly from Microsoft. Additional info can be found here: -us/windows-hardware/drivers/usbcon/muttutil. Ordering instructions are found here: -us/windows-hardware/drivers/usbcon/microsoft-usb-test-tool--mutt--devices. Contact usbcompliance@usb.org with any questions.
The Embedded Board Planner is an interactive tool that is designed to help the user kick off the conceptual design phase and plan their embedded PCB design. The user can select a processor and chipset combination, peripheral devices, board size, estimate a power budget, perform a preliminary thermal analysis, build design schematics that can be downloaded in leading offline schematic editors. After completing this exercise the user will be able to download a report summarizing their conceptual PCB design, get access to design content, and view available board solutions.
Gaming First mode leverages a massive application database and an analysis of your frequently used apps to prioritize gaming network traffic. This reduces jitter and decreases ping to give you lag-free online gaming.
ROG Strix Z690 motherboards include an AIDA64 Extreme 60 days free trial. This industry-leading system information tool provides detailed information about installed hardware and software, and it also provides benchmarks for measuring performance of the entire system or individual components. AIDA64 Extreme includes a monitoring and diagnostics feature to detect and prevent hardware issues. All vital system sensors can be tracked in real time, allowing voltage readings, fan speeds, and temperature information to be displayed on the desktop or sent to dedicated displays or to the OLED panels of ROG AIO liquid coolers*.
We supplied an inertia separator to a client. They issued the order and then came back with some further information on the anti-icing system. We were able to run a thermal and fluid flow analysis with SOLIDWORKS Flow Simulation within 24 hours to confirm that the product supplied would work and that the anti-icing would have no hot or cold spots on the separator vanes. This saved us and the customer up to four weeks in external review and 5 to 10K in assessment costs, and kept the project on-time and on-budget.
The information here is excerpted from the e-book, Ultimate guide to profiling Unity games, available to download for free. The e-book was created by both external and internal Unity experts in game development, profiling, and optimization.
Unity ships with a range of free and powerful profiling tools for analyzing and optimizing your code, both in-Editor and on hardware. There are also several great native profiling tools designed for each target platform, such as those available from Arm, Apple, Sony, and Microsoft. Using a combination of both provides a more holistic view of application performance across all target devices.
Below we outline the best CPU temperature monitors. Both free, open-source tools, as well as highly customizable and feature-packed paid applications, compose our selection from which you can pick the monitor that is best suited to your needs.
HWMonitor is not just a CPU temperature monitor but a complete hardware monitor. It can read voltages, temperatures, and fans sensors of a system. So, you will be able to monitor the CPU and other sensors on your PC. Two of the most popular sensor chip ITE IT87 series, Winbond ICs, are supported by HWMonitor. It means most of the systems using these sensor chips will send a correct reading to the monitoring system. On top of it, HWMonitor can read new generation CPUs on-die core thermal sensors. In addition, it can read hard drive temperature using SMART video card GPU temperature. The HWMonitor is a free tool with an option to upgrade for a Pro subscription.
In terms of support, SpeedFan has support for Windows 10, 8.1, 8, 7, 2008, Vista, XP, 2003, 2002, NT, ME, 9x, and Windows Server 2003, 2008, 2012. It works with both 32-bit and 64-bit systems. SpeedFan is free, so you can download it and start using it right away.
It can read temperature information from all Intel Core processors that are core-based. Do remember Pentium 4 processors are not supported by it. RealTemp can calibrate the temperature for each core of the CPU. It is based on data gathered by using a Fluke 62 IR Thermometer. There are no installation or registry modifications required to use RealTemp. It supports 32-bit and 64-bit Windows 10, 8, 7, Vista, XP, and 2000. RealTemp is an entirely free app, so you can directly download and start using it.
It supports all the most popular technologies such as SNMP, WMI. SSH, PING, SQL, etc. With real-time maps, you can visualize the network with live information. Furthermore, it allows the creation of dashboards with the map designer to integrate network components. The PAESSLER PRTG Network Monitor can be downloaded completely free for 30 days with a free trial or by buying it. The price starts at $1750.
The best way to monitor CPU Temp and Fan speed are by using a CPU temperature monitor. There are many free open source applications available. We have listed all of them in this article. Download any one of the tools and start monitoring CPU temp and fan speed.
It includes linear static and non-linear quasi-static situations. Some of the most common scenarios covered by static analysis include linear stress analysis, deformation analysis and thermal analysis.
Thermal Analysis: The thermal module of PFC allows simulation of transient heat conduction and storage in materials consisting of PFC particles, as well as development of thermally induced strains and forces. PFC supports both thermal-only and coupled thermal-mechanical analysis.
Intelligently monitor and manage your servers with a variety of Intel server management tools and firmware to alert users of potential failures, assist in keeping firmware up to date, and monitor power and thermal conditions in the data center. Take full control of the server using a virtual keyboard, video, mouse (KVM), and virtual media redirection.
The SMART monitoring is available for all HDDs and SSDs. The Argus Monitor can identify whether it is an early warning sign that causes hard drive or SSD to fail. The app will warn that your drive is failing and requires replacements. This will enable you to backup files before the drive fails to function properly. The tool includes all the features that are required to run your PC smoothly. The product is free only for the first 30 days and you should purchase a license to extend the support.
Abstract:In this study, the skull bone thicknesses of 150 patients ranging in age from 0 to 72 years were calculated using a novel approach (thermal analysis), and thickness changes were analyzed. Unlike conventional thickness calculation approaches (Beam Propagation, Hildebrand), a novel heat transfer-based approach was developed. Firstly, solid 3D objects with different thicknesses were modeled, and thermal analyses were performed on these models. To better understand the heat transfer of 3D object models, finite element models (FEM) of the human head have been reported in the literature. The FEM can more accurately model the complex geometry of a 3D human head model. Then, thermal analysis was performed on human skulls using the same methods. Thus, the skull bone thicknesses at different ages and in different genders from region to region were determined. The skull model was transferred to ANSYS, and it was meshed using different mapping parameters. The heat transfer results were determined by applying different heat values to the inner and outer surfaces of the skull mesh structure. Thus, the average thicknesses of skull regions belonging to a certain age group were obtained. With this developed method, it was observed that the temperature value applied to the skull was proportional to the thickness value. The average thickness of skull bones for men (frontal: 7.8 mm; parietal: 9.6 mm; occipital: 10.1 mm; temporal: 6 mm) and women (frontal: 8.6 mm; parietal: 10.1 mm; occipital: 10 mm; temporal: 6 mm) are given. The difference (10%) between men and women appears to be statistically significant only for frontal bone thickness. Thanks to the developed method, bone thickness information at any desired point on the skull can be obtained numerically. Therefore, the proposed method can be used to help pre-operative planning of surgical procedures.Keywords: ANSYS; skull thickness; thermal image analysis; finite element 2ff7e9595c
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