DOCSLIB.ORG

Mac Labs. More Creativity

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Mac Labs. More Creativity Mac labs. More creativity. More engagement. More learning. Every Mac comes ready for 21st-century learning. Mac OS X Server creates the ultimate lab environment. Creativity and innovation are critical skills in the modern Mac OS X Server includes simplified tools for creating wikis and workplace, which makes them critical skills to teach today’s blogs, so students and staff can set up and manage them with students. Apple offers comprehensive lab solutions for your little or no help from IT. The Spotlight Server feature makes it school or university that will creatively engage students and easy for students collaborating on projects to find and view motivate them to take an interest in their own learning. The content stored anywhere on the network. Of course, access iLife ’09 suite of applications comes standard on every Mac, controls are built in, so they only get the search results they’re so students can immediately begin creating podcasts, editing authorised to see. Mac OS X Server also allows for real-time videos, composing music, producing photo essays and more. streaming of audio and video content, which lets everyone get right to work instead of waiting for downloads – saving major Mac or PC? Have both. storage across your network. Now one lab really can solve all your computing needs. Every Mac is powered by an Intel processor and features Launch careers from your Mac lab. Mac OS X – the world’s most advanced operating system. As an Apple Authorised Training Centre for Education, your Mac OS X comes with an amazing dual-boot feature called school can build a bridge between students and real-world Boot Camp that lets students run Windows XP or Vista natively careers. Students can master industry-standard digital media if there’s a PC application they need to use. You can even tools used in film, video and audio production, giving them install the free BootPicker application so students can simply the skills and certification to jump-start their careers and choose the operating system they want to use when they log distinguish themselves as professional-level users of in. Every new Mac also runs Microsoft Office, so exchanging Apple pro applications. files is easy. The most progressive lab is also the most practical. Mac OS X makes it all possible. Because every Mac comes with all kinds of built-in tools for Mac OS X is all about collaboration. Built-in iChat allows for education, you’ll spend less time (and less money) piecing four-way video conferencing, screen sharing, audio and video together various hardware and software solutions, and chat, and instant messaging – all of which let students work hoping they all work together. All Mac desktop computers, together from across the lab or across the building. Mac OS X notebooks and displays have also earned the ENERGY STAR is highly secure, too. It’s based on a rock-solid UNIX foundation rating for energy efficiency. And Apple will even recycle and open standards, making it almost crash-proof, virtually your old computers for you, whether they’re Macs or PCs. immune to viruses and spyware, and ready to automatically For more information about Mac labs visit connect to your wired or wireless network. www.apple.com/uk/education (United Kingdom) or www.apple.com/ie/education (Ireland) © 2009 Apple Inc. All rights reserved. Apple, the Apple logo, Boot Camp, iChat, iLife, Mac and Mac OS are trademarks of Apple Inc., registered in the U.S. and/or other countries. Spotlight is a trademark of Apple Inc. Intel and Intel Core are trademarks of Intel Corp. in the U.S. and other countries. Windows and Microsoft Office are sold separately. The mention of third-party products is for informational purposes only and represents neither an endorsement nor a warranty. Apple assumes no responsibility with regard to the selection, performance, or use of these vendors or products. iChat requires a broadband Internet connection; fees may apply. L413677A-UK.
Load more

Recommended publications
  • Integrated Step-Down Converter with SVID Interface for Intel® CPU
    Product Order Technical Tools & Support & Folder Now Documents Software Community TPS53820 SLUSE33 –FEBRUARY 2020 Integrated Step-Down Converter with SVID Interface for Intel® CPU Power Supply 1 Features 3 Description The TPS53820 device is D-CAP+ mode integrated 1• Single chip to support Intel VR13.HC SVID POL applications step-down converter for low current SVID rails of Intel CPU power supply. It provides up to two outputs to • Two outputs to support VCCANA (5.5 A) and power the low current SVID rails such as VCCANA P1V8 (4 A) (5.5 A) and P1V8 (4 A). The device employs D-CAP+ • D-CAP+™ Control for Fast Transient Response mode control to provide fast load transient • Wide Input Voltage (4.5 V to 15 V) performance. Internal compensation allows ease of use and reduces external components. • Differential Remote Sense • Programmable Internal Loop Compensation The device also provides telemetry, including input voltage, output voltage, output current and • Per-Phase Cycle-by-Cycle Current Limit temperature reporting. Over voltage, over current and • Programmable Frequency from 800 kHz to 2 MHz over temperature protections are provided as well. 2 • I C System Interface for Telemetry of Voltage, The TPS53820 device is packaged in a thermally Current, Output Power, Temperature, and Fault enhanced 35-pin QFN and operates between –40°C Conditions and 125°C. • Over-Current, Over-Voltage, Over-Temperature (1) protections Table 1. Device Information • Low Quiescent Current PART NUMBER PACKAGE BODY SIZE (NOM) • 5 mm × 5 mm, 35-Pin QFN, PowerPAD Package TPS53820 RWZ (35) 5 mm × 5 mm (1) For all available packages, see the orderable addendum at 2 Applications the end of the data sheet.
    [Show full text]
  • Introduction to Intel® FPGA IP Cores
    Introduction to Intel® FPGA IP Cores Updated for Intel® Quartus® Prime Design Suite: 20.3 Subscribe UG-01056 | 2020.11.09 Send Feedback Latest document on the web: PDF | HTML Contents Contents 1. Introduction to Intel® FPGA IP Cores..............................................................................3 1.1. IP Catalog and Parameter Editor.............................................................................. 4 1.1.1. The Parameter Editor................................................................................. 5 1.2. Installing and Licensing Intel FPGA IP Cores.............................................................. 5 1.2.1. Intel FPGA IP Evaluation Mode.....................................................................6 1.2.2. Checking the IP License Status.................................................................... 8 1.2.3. Intel FPGA IP Versioning............................................................................. 9 1.2.4. Adding IP to IP Catalog...............................................................................9 1.3. Best Practices for Intel FPGA IP..............................................................................10 1.4. IP General Settings.............................................................................................. 11 1.5. Generating IP Cores (Intel Quartus Prime Pro Edition)...............................................12 1.5.1. IP Core Generation Output (Intel Quartus Prime Pro Edition)..........................13 1.5.2. Scripting IP Core Generation....................................................................
    [Show full text]
  • Introducing the New 11Th Gen Intel® Core™ Desktop Processors
    Product Brief 11th Gen Intel® Core™ Desktop Processors Introducing the New 11th Gen Intel® Core™ Desktop Processors The 11th Gen Intel® Core™ desktop processor family puts you in control of your compute experience. It features an innovative new architecture for reimag- ined performance, immersive display and graphics for incredible visuals, and a range of options and technologies for enhanced tuning. When these advances come together, you have everything you need for fast-paced professional work, elite gaming, inspired creativity, and extreme tuning. The 11th Gen Intel® Core™ desktop processor family gives you the power to perform, compete, excel, and power your greatest contributions. Product Brief 11th Gen Intel® Core™ Desktop Processors PERFORMANCE Reimagined Performance 11th Gen Intel® Core™ desktop processors are intelligently engineered to push the boundaries of performance. The new processor core architecture transforms hardware and software efficiency and takes advantage of Intel® Deep Learning Boost to accelerate AI performance. Key platform improvements include memory support up to DDR4-3200, up to 20 CPU PCIe 4.0 lanes,1 integrated USB 3.2 Gen 2x2 (20G), and Intel® Optane™ memory H20 with SSD support.2 Together, these technologies bring the power and the intelligence you need to supercharge productivity, stay in the creative flow, and game at the highest level. Product Brief 11th Gen Intel® Core™ Desktop Processors Experience rich, stunning, seamless visuals with the high-performance graphics on 11th Gen Intel® Core™ desktop
    [Show full text]
  • Intel® Omni-Path Architecture (Intel® OPA) for Machine Learning
    Big Data ® The Intel Omni-Path Architecture (OPA) for Machine Learning Big Data Sponsored by Intel Srini Chari, Ph.D., MBA and M. R. Pamidi Ph.D. December 2017 mailto:[email protected] Executive Summary Machine Learning (ML), a major component of Artificial Intelligence (AI), is rapidly evolving and significantly improving growth, profits and operational efficiencies in virtually every industry. This is being driven – in large part – by continuing improvements in High Performance Computing (HPC) systems and related innovations in software and algorithms to harness these HPC systems. However, there are several barriers to implement Machine Learning (particularly Deep Learning – DL, a subset of ML) at scale: • It is hard for HPC systems to perform and scale to handle the massive growth of the volume, velocity and variety of data that must be processed. • Implementing DL requires deploying several technologies: applications, frameworks, libraries, development tools and reliable HPC processors, fabrics and storage. This is www.cabotpartners.com hard, laborious and very time-consuming. • Training followed by Inference are two separate ML steps. Training traditionally took days/weeks, whereas Inference was near real-time. Increasingly, to make more accurate inferences, faster re-Training on new data is required. So, Training must now be done in a few hours. This requires novel parallel computing methods and large-scale high- performance systems/fabrics. To help clients overcome these barriers and unleash AI/ML innovation, Intel provides a comprehensive ML solution stack with multiple technology options. Intel’s pioneering research in parallel ML algorithms and the Intel® Omni-Path Architecture (OPA) fabric minimize communications overhead and improve ML computational efficiency at scale.
    [Show full text]
  • Intel® Arria® 10 Device Overview
    Intel® Arria® 10 Device Overview Subscribe A10-OVERVIEW | 2020.10.20 Send Feedback Latest document on the web: PDF | HTML Contents Contents Intel® Arria® 10 Device Overview....................................................................................... 3 Key Advantages of Intel Arria 10 Devices........................................................................ 4 Summary of Intel Arria 10 Features................................................................................4 Intel Arria 10 Device Variants and Packages.....................................................................7 Intel Arria 10 GX.................................................................................................7 Intel Arria 10 GT............................................................................................... 11 Intel Arria 10 SX............................................................................................... 14 I/O Vertical Migration for Intel Arria 10 Devices.............................................................. 17 Adaptive Logic Module................................................................................................ 17 Variable-Precision DSP Block........................................................................................18 Embedded Memory Blocks........................................................................................... 20 Types of Embedded Memory............................................................................... 21 Embedded Memory Capacity in
    [Show full text]
  • 4-Phase, 140-A Reference Design for Intel® Stratix® 10 GX Fpgas Using
    TI Designs: PMP20176 Four-Phase, 140-A Reference Design for Intel® Stratix® 10 GX FPGAs Using TPS53647 Description Features This reference design focuses on providing a compact, • All Ceramic Output Capacitors high-performance, multiphase solution suitable for • D-CAP+™ Modulator for Superior Current-Sharing powering Intel®Stratix® 10 GX FPGAs with a specific Capabilities and Transient Response focus on the 1SG280-1IV variant. Integrated PMBus™ • Peak Efficiency of 91.5% at 400 kHz, VIN = 12 V, allows for easy output voltage setting and telemetry of V = 0.9 V, I = 60 A key design parameters. The design enables OUT OUT programming, configuration, smart VID adjustment, • Excellent Thermal Performance Under No Airflow and control of the power supply, while providing Conditions monitoring of input and output voltage, current, power, • Overvoltage, Overcurrent, and Overtemperature and temperature. TI's Fusion Digital Power™ Designer Protection is used for programming, monitoring, validation, and • PMBus Compatibility for Output Voltage Setting characterization of the FPGA power design. and Telemetry for VIN, VOUT, IOUT, and Temperature • PMBus and Pinstrapping Programming Options Resources Applications PMP20176 Design Folder • FPGA Core Rail Power TPS53647 Product Folder CSD95472Q5MC Product Folder • Ethernet Switches Fusion Digital Power • Firewalls and Routers Product Folder Designer • Telecom and Base Band Units • Test and Measurement ASK Our E2E Experts CSD95472Q5MC Smart Power Stage CSD95472Q5MC Smart Power Stage TPS53647 ® Four-Phase Stratix 10 GX Controller Core Rail CSD95472Q5MC Smart Power Stage Onboard Load Generator CSD95472Q5MC Smart Power Intel® Load Stage Slammers Copyright © 2017, Texas Instruments Incorporated An IMPORTANT NOTICE at the end of this TI reference design addresses authorized use, intellectual property matters and other important disclaimers and information.
    [Show full text]
  • Performance Analysis of Intel Gen9.5 Integrated GPU Architecture
    Performance Analysis of Intel Gen9.5 Integrated GPU Architecture Helder Francisco Pereira Duarte Thesis to obtain the Master of Science Degree in Electrical and Computer Engineering Supervisor(s): Doctor Aleksandar Ilic Examination Committee Chairperson: Doctor António Manuel Raminhos Cordeiro Grilo Supervisor: Doctor Aleksandar Ilic Member of the Committee: Doctor Ricardo Jorge Fernandes Chaves June 2018 Declaration I declare that this document is an original work of my own authorship and that it fulfills all the require- ments of the Code of Conduct and Good Practices of the Universidade de Lisboa. Acknowledgments I would like to thank my family and friends, whose support was paramount to the completion of this thesis, and to INESC-ID Lisboa, for providing the facilities in which this thesis was developed. In particular I would like to thank Diogo Marques for his tips that helped drive my research forward and, of course, to Prof. Aleksander for his incredible patience in dealing with me. i ii Resumo Recentemente os CPUs vemˆ equipados com placas graficas´ integradas. Este acoplamento tem o potencial de oferecer ganhos de desempenho consideraveis´ caso as ditas GPUs sejam usadas como aceleradores. No entanto, placas graficas´ integradas temˆ dificuldade em atingir os n´ıveis de desem- penho que placas discretas proporcionam devido ao menor numero´ de nucleos.´ Contudo, a sua prox- imidade com o CPU significa uma partilha de dados com menos sobrecargas associadas. Ademais, as vantagens de partilhar a hierarquia de memoria´ com o processador e o consumo de energia mais baixo que as placas discretas a` custa de desempenho permite atingir n´ıveis de eficienciaˆ energetica´ mais elevados.
    [Show full text]
  • WIND RIVER INTELLIGENT DEVICE PLATFORM XT the Foundation for Building Devices That Connect to the Internet of Things
    WIND RIVER INTELLIGENT DEVICE PLATFORM XT The Foundation for Building Devices That Connect to the Internet of Things The opportunities presented by the burgeoning Internet of Things (IoT) may be new, but Wind River® has been providing the intelligence that powers interconnected, automated systems for decades. Wind River Intelligent Device Platform XT is a scalable, sustainable, and secure development environment that simplifies the development, integration, and deployment of IoT gateways. It is based on Wind River industry-leading operating systems, which are standards-compliant and fully tested, as well as Wind River development tools. The platform provides device security, smart connectivity, rich network options, and device management; and it includes ready-to-use components built exclusively for developing IoT gateway applications. Intelligent Device Platform XT provides outstanding software and expertise to fuel the rapid innovation and deployment of safe, secure, and reliable intel- ligent devices through more efficient development cycles, standards-based data connec- tions, and intuitive management tools. CONNECTIVITY TOOLS ZigBee Bluetooth WWAN VPN MQTT Cloud Connector Wi MANAGEMENT nd River Integrated Development Environment T Secure Updates OMA DM, TR-069 Device Authentication Web Interface Application Signing API OpenJDK Lua VM SQLite OSGi To SECURITY ol TCG Standards Role Based Access Control Integrity Monitoring Signed Software ool s WIND RIVER OPERATING ENVIRONMENTS Trusted Secure Boot Wind River Intelligent Device Operating Platform Feature Environment Base Figure 1: Wind River Intelligent Device Platform architecture Product Note INNOVATORS START HERE. WIND RIVER INTELLIGENT DEVICE PLATFORM XT INTEL, MCAFEE, AND WIND RIVER, BETTER TOGETHER Intelligent Device Platform XT is part of Intel® Gateway Solutions for Internet of Things (IoT), a family of platforms that enables companies to seamlessly interconnect indus- trial devices and other systems into a system of systems.
    [Show full text]
  • Extracting and Mapping Industry 4.0 Technologies Using Wikipedia
    Computers in Industry 100 (2018) 244–257 Contents lists available at ScienceDirect Computers in Industry journal homepage: www.elsevier.com/locate/compind Extracting and mapping industry 4.0 technologies using wikipedia T ⁎ Filippo Chiarelloa, , Leonello Trivellib, Andrea Bonaccorsia, Gualtiero Fantonic a Department of Energy, Systems, Territory and Construction Engineering, University of Pisa, Largo Lucio Lazzarino, 2, 56126 Pisa, Italy b Department of Economics and Management, University of Pisa, Via Cosimo Ridolfi, 10, 56124 Pisa, Italy c Department of Mechanical, Nuclear and Production Engineering, University of Pisa, Largo Lucio Lazzarino, 2, 56126 Pisa, Italy ARTICLE INFO ABSTRACT Keywords: The explosion of the interest in the industry 4.0 generated a hype on both academia and business: the former is Industry 4.0 attracted for the opportunities given by the emergence of such a new field, the latter is pulled by incentives and Digital industry national investment plans. The Industry 4.0 technological field is not new but it is highly heterogeneous (actually Industrial IoT it is the aggregation point of more than 30 different fields of the technology). For this reason, many stakeholders Big data feel uncomfortable since they do not master the whole set of technologies, they manifested a lack of knowledge Digital currency and problems of communication with other domains. Programming languages Computing Actually such problem is twofold, on one side a common vocabulary that helps domain experts to have a Embedded systems mutual understanding is missing Riel et al. [1], on the other side, an overall standardization effort would be IoT beneficial to integrate existing terminologies in a reference architecture for the Industry 4.0 paradigm Smit et al.
    [Show full text]
  • Wind River Simics
    ™ AN INTEL COMPANY WIND RIVER SIMICS Electronic systems are becoming increasingly complex, with more hardware, more software, and more connectivity. Today’s systems are software intensive, using multiple processor architectures and running complex, multilayered software stacks. With an increasing empha- sis on smart and connected systems, complexity in software and hardware is unavoidable. With more connections comes additional security risk, which needs to be tested thoroughly. Compounding the challenge is the fact that developers have turned to DevOps and con- tinuous development practices to meet customer and company expectations for quick deliveries. Such methodologies rely on fast iterations for test, feedback, and deployment. Collaborative and cross-functional teams need tools to communicate and share a common development baseline. Wind River® Simics® allows developers to have on-demand access to any target system at any time. It enables more efficient collaboration between developers and quality assurance teams. Simics provides an automation API, enabling organizations to reap the business ben- efits of DevOps and continuous development practices to create and deliver better, more secure software, faster—even for complex, embedded, connected, and large IoT systems. DEVELOP SOFTWARE IN A VIRTUAL ENVIRONMENT Simics provides the access, automation, and collaboration required to enable DevOps and continuous development practices. By using virtual platforms and simulation, soft- ware developers can decouple their work from physical hardware and its limitations during development. Access to virtual hardware allows developers to do continuous integration and automated testing much sooner in the development cycle—even before the hardware design is finalized—as well as perform both testing and debugging during design and pro- totyping phases.
    [Show full text]
  • Intel Corporation V. Advanced Micro Devices, Inc., 02-572
    No. 02-572 IN THE Supreme Court of the United States INTEL CORPORATION, Petitioner, v. ADVANCED MICRO DEVICES, INC. Respondent. ON WRIT OF CERTIORARI TO THE UNITED STATES COURT OF APPEALS FOR THE NINTH CIRCUIT BRIEF FOR PETITIONER JOSEPH KATTAN SETH P. WAXMAN GIBSON, DUNN & Counsel of Record CRUTCHER LLP JONATHAN E. NUECHTERLEIN 1050 Connecticut Ave., N.W. JONATHAN H. SIEGELBAUM Washington, D.C. 20036 WILMER, CUTLER & PICKERING (202) 955-8500 2445 M Street, N.W. Washington, D.C. 20037 JAMES A. MURRAY (202) 663-6000 INTEL CORPORATION 2200 Mission College Blvd., SC4-202 Santa Clara, CA 95052-8119 (408) 653-5370 QUESTIONS PRESENTED Section 1782 of Title 28 authorizes federal district courts to order discovery “for use in a proceeding in a foreign . tribunal, including criminal investigations conducted before formal accusation.” The questions presented are: 1. Whether section 1782 entitles a private antitrust complainant to pre-litigation civil discovery in the United States that would be unavailable both (a) under any provi- sion of U.S. law if the complaint had been lodged with U.S., rather than foreign, law enforcement authorities and (b) un- der the law of the foreign jurisdiction itself if the evidence were located there rather than in the United States. 2. Whether section 1782 allows civil discovery by a pri- vate person when no “proceeding” before a foreign “tribu- nal” is pending or even imminent. (i) ii PARTIES TO THE PROCEEDINGS The only parties to this proceeding are identified in the caption. RULE 29.6 STATEMENT Petitioner Intel Corporation is a publicly traded corpo- ration, and no publicly held company owns 10% or more of its stock.
    [Show full text]
  • GRIFFIN: Guarding Control Flows Using Intel Processor Trace
    GRIFFIN: Guarding Control Flows Using Intel Processor Trace Xinyang Ge Weidong Cui Trent Jaeger Microsoft Research Microsoft Research The Pennsylvania State University [email protected] [email protected] [email protected] Abstract specified control-flow graph (CFG). CFI defenses were iden- Researchers are actively exploring techniques to enforce tified as the foundation of defenses against code-reuse at- control-flow integrity (CFI), which restricts program exe- tacks [40], as such attacks fundamentally aim to exploit com- cution to a predefined set of targets for each indirect con- promised programs by executing adversary-chosen control trol transfer to prevent code-reuse attacks. While hardware- flows. While attacks are still possible even when restricting assisted CFI enforcement may have the potential for ad- program execution to a restrictive CFG [10], CFI can greatly vantages in performance and flexibility over software in- reduce the attack surface available to adversaries. strumentation, current hardware-assisted defenses are either To date, researchers have focused on software-only im- incomplete (i.e., do not enforce all control transfers) or less plementations of CFI. Such approaches can be divided into efficient in comparison. We find that the recent introduction three categories: compile-time instrumentation, static binary of hardware features to log complete control-flow traces, instrumentation, and runtime instrumentation. The main ad- such as Intel Processor Trace (PT), provides an opportunity vantage of compile-time instrumentation [8, 14, 18, 28, 31, to explore how efficient and flexible a hardware-assisted CFI 33, 35, 42, 45, 49] is that it has better performance than other enforcement system may become.
    [Show full text]