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E20-080 exam Dumps Source : EMC Technology Foundations - NS

Test Code : E20-080
Test appellation : EMC Technology Foundations - NS
Vendor appellation : EMC
exam questions : 210 existent Questions

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EMC EMC Technology Foundations -

Dell EMC-VMware Integration Paying Off In huge Channel revenue positive aspects | existent Questions and Pass4sure dumps

VirtuIT techniques President Michael Murphy is seeing big income gains because of the more and more taut engineering integration between Dell EMC and VMware choices.

really, Murphy, a longtime Dell accomplice based in Nanuet, N.Y., illustrious VirtuIT’s Dell EMC networking industry is up 200 percent, while his storage sales are up as lots as forty percent because of the Dell EMC-VMware collaboration.

“the significant thing for us to being a hit is to live that bridge for Dell EMC and VMware,” stated Murphy. “We bring every thing collectively in order that the customer sees us because the potential to the discontinue to find them on their solution to digital transformation.”

Murphy isn’t by myself. different Dell companions are additionally seeing massive revenue gains on account of the breakthroughs in product simplicity and price/efficiency from the Dell EMC and VMware engineering groups working aspect through aspect.

technology collaboration between the two companies this yr is decided to “accelerate” across a big altenative of areas starting from client and desktop choices to storage and networking, stated Tom sweet, government vice president and CFO at Dell.

“You issue on the variety of reply workstreams that we've going at the minute with VMware—whether it’s around hyperconverged infrastructure or Workspace ONE in their client district or round what we’re doing with vSAN and vSAN able Nodes—so across the spectrum you’re going to study us accelerate a brace of these built-in options. We’re positive and excited about it,” observed sweet. “VMware is a considerable platform in the market in terms of their district in virtualized infrastructure, however you additionally reflect about what they’re doing with VMware’s NSX and the community, they occupy a lot of exercise happening in the networking area. It’s fairly enjoyable instances.”

Ashley Gorakhpurwalla, president and universal manager of Dell EMC’s Server and Infrastructure methods, observed working hand in hand with VMware’s engineering and edifice teams has given Dell EMC what he calls a “complete competencies” to drive expertise differentiation within the intensely competitive hyper-converged market.

“below the Dell technologies umbrella, what we’re in a position to establish collectively is in fact co-engineering with VMware,” he spoke of. “we now occupy a mixed crew. It’s not a Dell EMC or a VMware team. it is a combined team.”

That means excellent engineers from both groups are “committed to the assignment of edifice the best hyper-converged infrastructure working system and equipment,” said Gorakhpurwalla.

“We gained extraordinary scale through their PowerEdge [server] industry that makes it workable for us to unencumber several stages of know-how, but most importantly, they unfolded another plane of deep integrated engineering because now they personal everything—all of the approach from the silicon, fiberglass and sheet metallic, gross the means as much as the cloud,” illustrious Gorakhpurwalla.

yet another huge channel benefit from the tighter relationship is that VMware channel reps and account managers are now working alongside Dell EMC’s channel groups.

“The VMware reps are within the selfsame domain offices because the Dell guys,” talked about Murphy. “one of the vital first questions we’re now asking their earnings group is, ‘who's the VMware rep? in case you don’t know the VMware rep, then you definately’re no longer doing the usurp actions in terms of revenue.’”

The stepped-up 2019 Dell EMC-VMware integration nasty comes on the heels of a blizzard of product integrations including Dell Provisioning for VMware’s Workspace ONE, which permits automatic machine setup and extends the efficiencies of cloud management. furthermore, Dell’s VxRack hyper-converged gadget now integrates with updated types of VMware’s Cloud groundwork, NSX and vRealize Suite, as well as with VMware’s multi-cloud application-as-a-service answer, VMware Cloud meeting.

searching ahead, Gorakhpurwalla illustrious if VMware has a know-how on its street map, that you can wager that it might live on the Dell EMC road map as neatly.

“we now occupy a dedication that once VMware presents a function, a means, they already learn about it—we’ve already confirmed it and we’ll fabricate it accessible to partners and consumers inside that month,” Gorakhpurwalla referred to. “in the event that they unencumber an express patch to a tremendous liberate, we’ll live there on the identical time as a result of we’re co-engineering and customers are asking us to live capable of give the quickest time to market with these price-brought features.”

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Brocade SAN cloth technologies provide solid foundation for brand original EMC VSPEX With VMAX3 100K Infrastructure reply | existent Questions and Pass4sure dumps

LAS VEGAS, NV--(Marketwired - can besides 5, 2015) - Brocade (NASDAQ: BRCD)

  • Brocade Gen 5 Fibre Channel SAN switches and administration software aid live confident predictable performance, unmatched resiliency and extremely-quick access to records for EMC VMAX3 storage
  • Brocade material vision know-how helps avoid issues before they occupy an impact on operations, accelerate software deployments and dramatically reduce back operational prices
  • Brocade (NASDAQ: BRCD) nowadays introduced the enterprise's Gen 5 Fibre Channel storage enviornment network (SAN) technologies play an significant role in offering reliability and predictable efficiency for the brand original EMC® VSPEX® with VMAX3™ 100K converged infrastructure reply that was unveiled nowadays at EMC World. the brand original reply is in keeping with the EMC VSPEX reference architecture and is designed for virtualized cloud-based start and management of IT materials.

    VSPEX with VMAX3 100K is goal built to carry and control predictable provider stages at scale for hybrid clouds. here is designed to provide customers with the capacity to seamlessly bridge their VMware private cloud deployment with public clouds, paving the style ahead to hyperconsolidate and attach on- and off-premise workloads into a hybrid cloud atmosphere.

    Brocade Gen 5 Fibre Channel SAN switches and management software provide an exceptional .foundation between the VMAX3 100K storage arrays and servers. gross facets of this reference structure were tested and authorized as an reply via EMC.

    "Converged infrastructures for high-conclusion, enterprise-crucial applications fill an immense void within the industry," mentioned Jack Rondoni, vp, storage networking, at Brocade. "For these environments, Brocade Fibre Channel fabrics permit the server and storage to understand their complete capabilities through maximizing community uptime, simplifying SAN administration and presenting unparalleled visibility and insight throughout the entire storage community."

    The SAN for VSPEX with VMAX3 100K is built on Brocade Gen 5 Fibre Channel SAN switching and fabric imaginative and prescient™ monitoring and community diagnostic technologies. Branded and bought throughout the EMC Connectrix® family unit, the Brocade SAN helps live unavoidable predictable performance, unmatched resiliency and ultra-fast access to data kept on the EMC VMAX3 100K arrays, every of which are crucial for guaranteeing predictable carrier levels, at scale, for hybrid clouds.

    Brocade textile imaginative and prescient expertise is advanced hardware and utility that combines capabilities from Brocade hardware, the embedded operating system (Brocade fabric OS®) and administration application (Brocade network marketing consultant). Leveraging innovative monitoring, diagnostics and administration capabilities, Brocade textile vision expertise provides administrators with the potential to anticipate and preempt complications before they influence operations, precipitate up software performance and dramatically reduce back operational fees.

    "Brocade Fibre Channel SANs are a relied on, optimal-of-breed solutions for thousands of EMC excessive-conclusion storage customers in lots of of the area's most disturbing environments," pointed out Gil Shneorson, vice president, bonafide supervisor, VSPEX, EMC organisation. "The Brocade SAN technologies occupy been a ratiocinative altenative for helping the VSPEX VMAX3 100K converged structure to enable the identical reliability, agility and ease for corporations who are looking to convey capabilities by means of hybrid-cloud IT architectures."

    Product and know-how details

    EMC Connectrix DS-6510B sixteen Gb SAN change

  • forty eight-port, excessive-performance, commercial enterprise-class switch that meets the demands of particularly virtualized and personal cloud storage environments
  • offers optimum flexibility, simplicity, and reliability in an effectively designed 1U equipment.
  • Maximizes availability with redundant, sizzling-pluggable add-ons and non-disruptive software enhancements
  • Brocade fabric vision

  • policy-primarily based gear that simplify fabric-huge threshold configuration and monitoring
  • management gear that allow administrators to determine, computer screen and resolve selected utility information flows, devoid of the want for tall priced, disruptive, third-party tools
  • Monitoring tools that detect community congestion and latency within the textile, presenting visualization of bottlenecks and determining precisely which contraptions and hosts are impacted
  • Customizable fitness and performance dashboard views, featuring gross significant suggestions in one display
  • Cable and optic diagnostic points that simplify the deployment and pilot of massive fabric
  • Pricing and Availability

    Brocade SAN textile applied sciences for EMC VSPEX with VMAX 100K3 at the minute are attainable from EMC VSPEX-enabled company companions. Pricing suggestions is additionally attainable from these partners.

    About Brocade

    Brocade (NASDAQ: BRCD) networking options aid the area's leading organizations transition easily to a world the district purposes and assistance live anywhere. (

    © 2015 Brocade Communications programs, Inc. gross Rights Reserved.

    ADX, Brocade, Brocade Assurance, the B-wing image, DCX, cloth OS, HyperEdge, ICX, MLX, MyBrocade, OpenScript, The simple community, VCS, VDX, Vplane, and Vyatta are registered trademarks, and textile imaginative and prescient and vADX are logos of Brocade Communications methods, Inc., in the u.s. and/or in different international locations. different manufacturers, items, or provider names mentioned may live emblems of others.

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    Short Tutorial on VXI | existent questions and Pass4sure dumps

    VXI Tutorial

    The purpose of this application note is to serve you gain an understanding of VXI and MXI concepts. This application note is divided into two tutorial sections. The first section discusses VXI and the second section discusses MXI.

    This section contains an overall introduction to VXI (VMEbus eXtensions for Instrumentation).

    What Is VXI?

    The VXIbus Consortium was formed in 1987 with a charter of defining a multivendor instrument-on-a-card standard. Since that time, the Consortium has defined system-level components required for hardware interoperatibility. The IEEE officially adopted the VXI specification, IEEE 1155, in March 1993. The VXIplug&play Systems Alliance, founded in September 1993, sought a higher plane of system standardization to cover gross VXI system components. By focusing on software standardization, the alliance defined standards to fabricate VXI systems simple to integrate and expend while maintaining multivendor software interoperatibility. With the success of multivendor standards and solid technical specifications, VXI is backed by more than 250 vendors, with more than 1000 products available. The success of VXI as an open, multivendor platform is a testament to the value of multivendor standards, and has made VXI the platform of altenative for open instrumentation systems.

    VXI is used in many different applications ranging from test and measurement and ATE, to data acquisition and analysis in both research and industrial automation. Although some VXI systems today are purely VXI, many users are migrating to VXI by integrating it into existing systems consisting of GPIB instruments, VME cards, or plug-in data acquisition (DAQ) boards. You can control a VXI system with a remote general-purpose computer using the high-speed Multisystem eXtension Interface (MXI) bus interface or GPIB. You can besides embed a computer into a VXI chassis and control the system directly. Whatever your system configuration needs may be, VXI offers the flexibility and performance to rob on today’s most challenging applications.

    The requisite for VXIbus

    The claim for an industry-standard instrument-on-a-card architecture has been driven by the requisite for physical size reduction of rack-and-stack instrumentation systems, tighter timing and synchronization between multiple instruments, and faster transfer rates than the 1 Mb/s rate of the 8-bit GPIB. The modular shape factor, tall bandwidth, and commercial success of the VMEbus made it particularly attractive as an instrumentation platform. The tremendous popularity of GPIB besides made it attractive as a model for device communication and instrument control protocols. The VXIbus specification adds the standards necessary to combine the VMEbus with GPIB to create a new, modular instrumentation platform that can meet the needs of future instrumentation applications.

    VXI brings the following benefits to instrumentation users:

  • Open, multivendor standards maximize flexibility and minimize obsolescence
  • Increased system throughput reduces test time and/or increases capabilities
  • Smaller size and higher density reduce floor space, enhance mobility or portability, and give near proximity to device(s) being tested or controlled
  • More precise timing and synchronization help measurement capability
  • Standardized VXIplug&play software eases system configuration, programming, and integration
  • Modular, rugged design improves reliability, increases standfor time between failure (MTBF), and decreases standfor time to repair (MTTR)
  • The Value of Open Industry Standards

    The baseline VXI hardware specifications are a mandate for interoperatibility between hardware products from different vendors. These specifications cover mechanical and environmental requirements such as module sizes, mainframe and module cooling, and EMC compatibility between modules, as well as automated system initialization and backplane communication protocols. The VXIplug&play Systems Alliance builds on these baseline specifications to address the system as a gross with the goal of having the user up and running in “five minutes or less.” edifice a system based on open industry standards means that you pick components for your system based on your requirements, regardless of vendor. Open standards besides ensure that once your system is built, your investment will continue to pay dividends well into the future.

    Both the VXIbus Consortium and the VXIplug&play Systems Alliance remain strong, dynamic organizations committed to maintaining VXI as an open, multivendor technology and increasing its ease of expend and end-user success. In fact, many of the largest instrument suppliers in the world are members of both organizations, including National Instruments, GenRad, Hewlett-Packard, Racal Instruments, and Tektronix. With VXIplug&play, you are assured that components from different vendors travail reliably in the selfsame system. Members of the VXIbus Consortium and the VXIplug&play Systems Alliance occupy combined their expertise to develop technically sound standards for both hardware and software, bringing the entire industry into a original generation of instrumentation – a generation that stresses ease of expend and open systems without sacrificing flexibility or performance.

    VXIbus Mechanical Configuration

    Physically, a VXIbus system consists of a mainframe chassis that has the physical mounting and backplane connections for plug-in modules, as shown in device 1. The VXIbus uses the industry-standard IEEE-1014 VMEbus as a ground architecture to build upon. As shown in device 2, VXI uses the complete 32-bit VME architecture, but adds two board sizes and one connector. The P1 connector and the seat row of the P2 connector are retained exactly as defined by the VME specification. The VME user-definable pins on the P2 connector and the additional pins on P3, the third VXI connector, implement instrumentation signals between plug-in modules directly on the backplane.

    The VXIbus specification includes packaging requirements, electromagnetic compatibility, power distribution, cooling, and airflow for VXIbus mainframes and plug-in modules. The modules are installed in the mainframe slots. LEDs, switches, test points, and I/O connections are accessible from the module front panel.

    Module and Mainframe Cooling

    Airflow direction is from bottom (P3) to top (P1). Cooling requirements must live established for gross modules and included in product specifications. These requirements must comprise an operating point of minimum airflow requirement. Mainframe suppliers must besides provide similar information for their mainframes.

    EMC and Noise

    The addition of a original module to a VXIbus system must not humiliate the performance of any other module. The VXIbus specification includes near-field radiation and susceptibility requirements, which preclude one module from interfering with the operation of other modules. To serve meet these requirements, the VXIbus module width was increased from the 0.8 in. VME requirement to 1.2 in., so that there is enough room for the module to live completely enclosed in a metal case for shielding. The metal cases connect to backplane grounds. Thus, you can expend existing VME boards in a VXIbus chassis, but not vice versa.

    The VXIbus specification besides has conducted-emissions and susceptibility requirements, which preclude any power supply racket from affecting the performance of a module. For far-field radiated emissions such as FCC and VDE, each module must not contribute more than its share of the total. For example, in a mainframe that holds 13 modules, each module must not contribute more than 1/13 of the allowed total. Because of the desire for extremely precise time coupling between modules using the backplane, it is necessary to minimize the racket and crosstalk on the backplane clock and trigger signal lines. The backplane is required to live a single, monolithic board across any one slot. The VXIbus specification has a tutorial section on how to design a backplane for low racket and tall signal integrity.

    Hardware Registers

    VXI modules must occupy a specific set of registers located at specific addresses, as shown in device 3. The upper 16 KB of the 64 KB A16 address space are reserved for VXIbus devices. Each VXI device has an 8-bit ratiocinative address that specifies where its registers are located in this address space. A separate VXI system can occupy up to 256 VXI devices. The ratiocinative address of a VXI device, which can live manually set or automatically configured by the system at startup, is analogous to the GPIB address of a GPIB device.

    Register-Based Devices

    Because of the VXI configuration registers, which are required for gross VXI devices, the system can identify each VXI device, its type, model and manufacturer, address space, and recollection requirements. VXIbus devices with only this minimum plane of capability are called Register-Based devices. With this common set of configuration registers, the centralized Resource Manager (RM), essentially a software module, can fulfill automatic system and recollection configuration when the system is initialized.

    Message-Based Communication

    In addition to Register-Based devices, the VXIbus specification besides defines Message-Based devices, which are required to occupy communication registers and configuration registers. gross Message-Based VXIbus devices, regardless of the manufacturer, can communicate at a minimum plane using the VXI-specified Word Serial Protocol. When minimum communication is possible, higher-performance communication channels, such as shared-memory channels, can live established to rob edge of the VXIbus bandwidth capabilities.

    Word Serial Protocol

    The VXIbus Word Serial Protocol is functionally very similar to the IEEE-488 protocol, which transfers data messages to and from devices one byte (or word) at a time. Thus, VXI Message-Based devices communicate in a vogue very similar to IEEE-488 instruments. In general, Message-Based devices typically contain some plane of local intelligence that uses or requires a tall plane of communication.

    All VXI Message-Based devices are required to expend the Word Serial Protocol to communicate in a benchmark way. The protocol is called word serial, because if you want to communicate with a Message-Based device, you Do so by writing and reading 16-bit words one at a time to and from the Data In (write Data Low) and Data Out (read Data Low) hardware registers located on the device itself. Word Serial communication is paced by the bits in the response register of the device, indicating whether the Data In register is blank and whether the Data Out register is full. This operation is very similar to Universal Asynchronous Receiver Transmitter (UART) on a serial port.

    Commander/Servant Hierarchies

    The VXIbus defines a Commander/Servant communication protocol so you can construct hierarchical systems using conceptual layers of VXI devices. This structure is fancy an inverted tree. A Commander is any device in the hierarchy with one or more associated lower-level devices, or Servants. A Servant is any device in the subtree of a Commander. A device can live both a Commander and a Servant in a multiple-level hierarchy.

    A Commander has exclusive control of the communication and configuration registers of its immediate Servants (one or more). Any VXI module has one and only one Commander. Commanders communicate with Servants through the communication registers of the Servants using the Word Serial Protocol if the Servant is a Message-Based device, or by device-specific register manipulation if the Servant is a Register-Based device. Servants communicate with their Commander by responding to the Word Serial commands and queries from their Commander through the Word Serial protocol if they are Message-Based, or by device-specific register status if they are Register-Based.

    Interrupts and Asynchronous Events

    Servants can communicate asynchronous status and events to their Commander through hardware interrupts or by writing specific messages (signals) directly to their Commander's hardware Signal Register. Nonbusmaster devices always transmit such information via interrupts, whereas devices that occupy busmaster capability can either expend interrupts or send signals. Some Commanders can receive signals only, whereas others might live only interrupt handlers.

    The VXIbus specification contains defined Word Serial commands so that a Commander can understand the capabilities of its Message-Based Servants and configure them to generate interrupts or signals in a particular way. For example, a Commander can instruct its Servants to expend a particular interrupt line, to send signals rather than generate interrupts, or configure the reporting of only unavoidable status or oversight conditions.

    Although the Word Serial Protocol is reserved for Commander/Servant communications, peer-to-peer communication between two VXI devices can live established through a specified shared-memory protocol or by simply writing specific messages directly to the signal register of the device. Slot 0 and the Resource Manager

    The leftmost slot of a VXI chassis has special system resources such as backplane clocks, configuration signals, and synchronization (trigger) signals and therefore must live occupied by a device with VXI “Slot 0” capabilities. The VXI Resource Manager (RM) function, essentially a software module, can reside on any VXI module or even on an external computer. The RM, in combination with the Slot 0 device, identifies each device in the system, assigns ratiocinative addresses, recollection configurations, and establishes Commander/Servant hierarchies using the Word Serial Protocol to grant Servants to the Commanders in the system. After establishing the Commander/Servant hierarchy, the RM issues the commence bonafide Operation Word Serial command to gross top-level Commanders. During bonafide system operation, the RM may besides halt the system and/or remap the hierarchy if necessary.

    Three Ways to Control a VXI System

    System configuration is divided into three categories. The first type of VXI system consists of a VXI mainframe linked to an external controller via the GPIB. The controller talks across the GPIB to a GPIB-VXI interface module installed inside the VXI mainframe. The GPIB-VXI interface transparently translates the GPIB protocol to and from the VXI Word Serial protocol.

    The second configuration involves a VXI-based embedded computer. The embedded computer is a VXI module that resides inside the VXI mainframe and connects directly to the VXI backplane. This configuration offers the smallest physical size for a VXI system as well as performance benefits due to direct connection to the VXI backplane.

    The third configuration uses a high-speed MXIbus link from an external computer to control the VXI backplane. The external computer operates as though it is embedded directly inside the VXI mainframe. This configuration is functionally equivalent to the embedded method, except that it has the flexibility for expend with a wide variety of computers and workstations.

    VXI Bus Interface Software

    One of the most significant considerations when selecting a VXI system is software. Software is the key to developing successful systems based on the VXIbus. There are many programming languages, operating systems, and application evolution environments (ADE) to pick from when edifice a VXI system. It is significant to fabricate the privilege decisions to realize gross of the advantages that VXI has to offer, while minimizing your evolution costs now and in the future.

    Your software decisions not only influence overall system performance and system capability, but besides evolution time and productivity. You should pick tools that occupy complete debugging capability and that travail with the most celebrated operating systems and programming languages. If you pick to program your VXI system using a benchmark language such as C, C++, Basic, ADA, or ATLAS, you should realize that benchmark programming languages Do not promote with built-in VXI capability. Rather, VXI capability is added through a VXI bus interface software library. This software component is very important, because it affects the altenative of VXI computer hardware, operating system, programming language, and ADE.

    Industry-Wide Software Standards

    As a step toward industry-wide software compatibility, the VXIplug&play alliance developed one specification for I/O software – the Virtual Instrument Software Architecture (VISA). The VISA specification, VPP-4.1, defines a next-generation I/O software benchmark not only for VXI, but besides for GPIB and serial interfaces. With the VISA benchmark endorsed by more than 50 of the largest instrumentation companies in the industry including Tektronix, Hewlett-Packard, and National Instruments, VISA unifies the industry by facilitating the evolution of interoperable and reusable software components able to stand the test of time. Before VISA, there were many different commercial implementations of I/O software for VXI, GPIB, and serial interfaces; however, notanyone of these I/O software products were standardized or interoperable.

    The VISA benchmark lays the foundation and provides a unified migration path for industry-wide software compatibility. One of the most notable benefits of VISA is its skill to significantly reduce the time and effort involved in programming different I/O interfaces. Instead of using a different API devoted to each interface bus, you can expend the VISA API regardless of whether your system is controlled by GPIB, VXI, or a GPIB-VXI.

    With the vast number of choices in instrumentation and software now available, most users Do not want to live locked into a specific vendor for their systems. Instead, they would prefer the freedom to select the best instruments and software available from multiple vendors and occupy it gross travail together with minimal effort. The IEEE 488.1 and IEEE 488.2 standards (for GPIB) and the IEEE 1155 benchmark (for VXI) ensured that the hardware would live interoperable, but this approach was not taken for the software. Therefore, the pattern original driver architecture should live a benchmark adopted by as many of the major vendors as possible. Then you could live assured that any code written for your instrument is portable across controller vendors as well as operating systems. This is exactly what the VXIplug&play Systems Alliance has done with VISA.

    MXI Tutorial

    This section contains an overall introduction to MXI.

    MXIbus Overview

    The MXIbus is a powerful, high-speed communication link that interconnects devices using a elastic cabling scheme. Derived from the VMEbus, MXI provides a high-performance route of controlling VXI systems using commercially available desktop computers and workstations. National Instruments developed and published the MXI specification and released it as an open industry benchmark in 1989. In 1995, National Instruments introduced MXI-2, which offers even higher performance.

    An MXIbus system configuration combines the performance benefits of a custom embedded VXI computer with the flexibility and availability of general-purpose computers. The MXIbus system configuration uses the high-speed MXIbus cable to connect an external computer directly to the VXI backplane. With the MXIbus, you can locate the computer directly next to the VXI mainframe, or up to 20 meters away. Using the MXIbus, you can easily add other VXI mainframes, and expend the plug-in slots in the external computer for GPIB-control, plug-in DAQ boards, or other peripheral adapter cards.

    For instrument control, MXI complements high-speed platforms such as PCI by harnessing their high-throughput potential. PCI-based desktop PCs compete with the most advanced computer workstations to provide a low-cost platform that delivers superior performance. You can expend low-cost desktop computers to control sophisticated VXI instrumentation without sacrificing performance or control. More importantly, as original desktop computers incorporate the latest technology including faster, more capable microprocessors and RAM, you can easily upgrade your VXI system as these newer and faster computers emerge to immediately garner increased VXI performance gains. Thus, a PCI-based MXI-2 solution such as their VXI-PCI8000 gives you excellent performance now with headroom for the future.

    A original Generation of VXI Connectivity

    Many VXI users migrate from GPIB-based systems. As a result, the National InstrumentsGPIB-VXI is a celebrated route to control VXI instruments from a GPIB controller. An increasingly celebrated route to control VXI, however, is to expend a custom VXI computer that plugs directly into the VXI mainframe, such as the National Instruments VXIpc™ and VXIcpu™ sequence of embedded VXI computers. This embedded approach is technically attractive because the computer communicates directly with the VXIbus and is tightly coupled to the instruments.

    Although an embedded computer is very powerful, custom VXI computers cannot possibly withhold pace with the general-purpose computer market. In the ultimate decade, specialized instrument controllers occupy rapidly declined. General-purpose PCs and workstations, with their vast array of software and accessories, occupy revolutionized the industry. By using general-purpose computers, the instrumentation industry directly benefits from the billions of R&D dollars spent each year in the generic computer market.

    Most VXI users would prefer to expend an industry-standard computer provided by a computer vendor rather than a VXI-specific computer provided by an instrument vendor. In fact, for VXI to truly become the platform for the next millennium, it must align itself with the powerful generic computer market. Then VXI can rob edge of the billions of dollars being spent and bring this investment to abide on the needs of the instrumentation community. VXI must live able to rob complete edge of industry-standard PCs with PCI, EISA, and ISA, as well as workstations from Sun, HP, and others. VXI besides must occupy a transparent mechanism for extending to multiple mainframes, and a route to accommodate instruments that cannot physically felicitous on a VXI module. MXIbus meets each of these needs.

     The requisite for MXIbus

    Today’s market demands that you add value to test and measurement systems. You requisite modular testing systems that can evolve with technological innovations in the industry. You want increased data throughput and the utmost in computing power; you want flexible, high-speed connectivity between multiple VXI/VME mainframes; and you want to live able to withhold up with innovations in PC and workstation technology. Today, sophisticated I/O architectures such as PCI are accelerating data throughput – who knows what tomorrow may hold. How can you rob these benefits both now and in the future? The reply is MXI.

    MXI provides you with a solution that combines the performance benefits of an embedded VXI computer with the flexibility of a general-purpose desktop computer. Their VXI-PCI8000 controller and their next generation MXI-2 provides you with an ultra high-performance VXI connectivity solution that can meet your needs both today and well into the future. Although traditional connectivity solutions occupy proved to live very effective, they besides occupy proved to live the bottleneck in VXI test systems because the software protocol overhead associated with these methods significantly reduced the achievable throughput on the link. Using MXI, this bottleneck is eliminated altogether because MXI devices are connected at the hardware plane by mapping each physically separate system into a shared recollection space. Physically separate devices transparently share resources through simple reads and writes to the usurp address in memory. Their next generation MXI-2 products enhance VXI connectivity by defining a separate memory-mapped backplane-on-a-bus that can transparently extend bus-level I/O, VXI triggering, interrupts, and systems clocks between systems. You can now expend a separate cable to conveniently share trigger and timing information between mainframes in a multiple mainframe configuration. The MXI 2.0 specification besides defines a synchronous data transfer method that increases MXIbus throughput for block data transfers. From a system standpoint, this means that MXI throughput rates can easily withhold up with the data rates of high-performance computers, peripherals, and instrumentation . From a user standpoint, this translates to increased performance and reduced time to test. By choosing a PC-based MXI approach, you are choosing to add value to your VXI instrumentation systems by using technologies that fabricate sense from both a cost and performance perspective.

    MXIbus Applications

    You can expend MXIbus for a variety of applications. You can interface industry-standard desktop computers to VXIbus or VMEbus; you can create multiple chassis configurations using their VXI-MXI or VME-MXI extenders; and you can integrate VXI and VME chassis into the selfsame test system.

    Figures 5 and 6 intricate two common configurations with MXIbus.

    How Does MXIbus Work?

    MXIbus is a generic purpose, 32-bit multimaster system bus on a cable. MXI interconnects multiple devices using a elastic cabling method similar to GPIB, but uses a hardware memory-mapped communication scheme that eliminates the software overhead. MXI devices can directly access each other’s resources by performing simple read and writes to usurp address locations. The original MXI-2 benchmark expands on the MXI-1 benchmark by exporting gross VXI backplane signals such as VXI-defined trigger lines, interrupt lines and system clocks, in addition to the benchmark MXIbus signals directly to the cabled bus. MXI-2 users can accomplish critical timing and synchronization tasks between up to eight, daisy-chained MXI devices.

    MXI device connectivity is accomplished at the hardware level. The MXI cable serves as a transparent link that interconnects multiple MXI devices. These devices are interlaced by mapping together portions of their individual address spaces so that a system composed of multiple devices behaves as a separate system with a shared address space. device 7 shows the MXIbus hardware memory-mapped communication. The immediate benefit of this approach is increased data throughput due to the absence of software overhead.

    Each MXIbus hardware interface has address window circuitry that detects internal (local) bus cycles that map out to the MXIbus. In addition, this circuitry besides detects external (remote) MXIbus cycles of connected devices whose addresses map into the shared recollection space of the overall system. When a hardware write or read occurs with an address that maps across MXI, the MXI hardware interlocks the bus cycle between the devices via the MXIbus. This hardware scheme is the selfsame as that used by embedded VXI controllers.

    MXIbus signals comprise 32 multiplexed address and data lines with parity, address modifiers for multiple address spaces, single-level multimaster prioritized bus arbitration, a separate interrupt line, a bus oversight line for handling timeouts and deadlock conditions, and handshake lines for asynchronous operation. Data transfers of 8, 16, and 32 bits are possible, as well as invisible read/write operations and integrated block-mode transfers. With synchronous MXI, the MXI-2 product line can achieve burst data rates as tall as 33 Mb/s, and sustained throughput rates exceeding 20 Mb/s, regardless of the length of the MXI-2 cable

    MXIbus Cables

    A separate MXI cable can live any length up to 20 m. Up to eight MXI devices can live daisy chained on a separate MXI cable length. If multiple MXI devices are daisy chained together, the total cable distance must live no more than 20 m. The MXI-1 cable is a flexible, round cable similar to a GPIB cable (about 0.6 in. in diameter). Internally there are 48 single-ended, twisted-pair signal lines. MXI-2 features an improved cabling scheme that uses a separate double-shielded cable between gross devices, and a separate high-density, high-reliability 144-pin connector per device. In this fashion, gross MXI-2 devices share not only the MXIbus itself, but besides the VXI-defined trigger lines, interrupt lines, systems clocks, and other signals that were available on MXI-1 products as an optional second connector and cable (INTX). MXI-1 products expend an MXI-1 cable between devices, and an optional INTX cable to share trigger/timing information between mainframes in a multiple mainframe configuration. MXI-2 eliminates the requisite for an additional INTX cable in your system. Because of the cable differences, you cannot blend MXI-1 and MXI-2 products in the selfsame system. Both MXI-1 and MXI-2 expend double shielding with an aluminum mylar shield as well as a copper braid shield to purge any EMI problems, and both cables meet the National Electric Code (NEC) CL2 fire safety code. The stacking depth of two daisy-chained MXI cables is approximately 3.3 in.

    MXI is essentially a backplane bus in a cable. Each MXI signal line is twisted with its own ground line. gross MXI signal lines are matched impedance to minimize signal skew and reflections. Stub lengths no more than 4 in. off the mainline interconnection minimize reflections due to impedance discontinuities. Termination networks, configured with onboard jumpers, are located at the first and ultimate MXI devices to minimize reflections at the ends of cables.

    MXI uses state-of-the-art, single-ended, trapezoidal bus transceivers to reduce racket crosstalk in the transmission system. Designed specifically for driving backplane bus signals, these transceivers occupy open-collector drivers that generate precise trapezoidal waveforms with typical soar and Fall times of 9 ns. The trapezoidal shape, due to the constant soar and Fall times, reduces racket coupling (crosstalk) on adjacent lines. The receiver uses a lowpass filter to remove racket and a high-speed comparator that recognizes the trapezoidal-shaped signal from the noise.

    Performance Issues MXIbus Performance

    It is often difficult to understand how a performance specification for a separate component relates to the overall performance of your system. In the case of MXI, it is significant to understand not only the performance issues associated with the MXI link, but besides the devices that communicate across the link. MXI works fancy an embedded computer, using a direct hardware memory-map to purge software overhead between your computer and the VXIbus or VMEbus. Both MXI and embedded VXI computers can expend shared-memory communication protocols and direct register accesses for potentially dramatic performance improvements over GPIB. If your VXI instruments themselves Do not expend these capabilities, however, your system performance using MXI or an embedded computer may live no higher than a GPIB-controlled VXI system.

    There are several factors to deem when comparing an MXI-equipped computer to an embedded computer. An MXI-equipped computer is functionally equivalent to an embedded computer. In fact, application software developed on a MXI computer using NI-VXI/VISA bus interface software can easily hasten on an embedded computer and vice versa. There are subtle hardware timing differences, but there is no dramatic performance variation due to architecture. MXI, for example, can rob roughly 100 ns more to fulfill a separate VXI read or write than an embedded computer, because the MXI signals must propagate down the MXI cable at 10 ns/m. This subtle detail is measured in ns, and is negligible compared to the other factors that influence your system performance, such as the execution precipitate of your application software or your instruments.

    Often, the most significant performance issue to deem when evaluating a computer for your system is the performance of the processor itself. Most applications disburse much more time computing, displaying, or performing disk I/O than actually performing I/O across the VXIbus or VMEbus. Current external MXI computers are more than four times as swiftly as the fastest embedded VXI computer. In addition, because of the physical space constraints of embedded computers, external computers often occupy much more sophisticated architectures with faster processors, cache RAM, faster disk drives, and other benefits. Raw computing power can live the separate most significant consideration for the performance of your system.

    Data Transfer Rates

    A common benchmark for VXI computers is the block Data Rate. This benchmark is simple for vendors to segregate and measure under pattern conditions. It is significant to understand what block Data Rate means to your application. block Data Rate is the rate at which you can jog a big block of data to or from recollection on an pattern VXI device using back-to-back VXI transfers. It does not measure how swiftly the computer can process the blocks of data or store them to disk once they are moved, or whether your instruments themselves can actually match that data rate. Most applications are not limited by the block Data Rate of the VXI interface hardware, but rather by the total time required to both jog and wield the data, or by the rate at which the instruments themselves can generate or accept the data.

    Block Data Rate is simple for vendors to specify, but often difficult for users to relate to overall system performance. It is only one of many elements that influence the actual throughput of your system. For example, block Data Rate does not indicate the processing power of your computer or the performance of the instruments themselves. In addition, a benchmark for block Data Rate does not measure how swiftly you can control instruments using VXI Word Serial Protocol or random VXI reads and writes. The precipitate for Word Serial communication and random VXI reads and writes is dependent on the precipitate of the processor and the particular VXI instruments.

    Local Performance

    The MXIbus does not humiliate the performance of the devices connected to it. Each MXI device can operate internally at complete precipitate in parallel with other MXI devices. Because MXIbus is a correct system bus with multimaster arbitration, the only time MXI devices must synchronize their operation is when they fulfill transactions that map across the MXIbus. When one MXI device performs a read or write that maps to a remote MXI device, the MXI hardware on both devices interlocks the bus cycle across the MXIbus to accomplish the transfer.

    MXI – An Open Standard

    The MXIbus specification was developed by National Instruments and announced in April 1989 as an open industry standard. A VXIplug&play core technology, MXIbus has been endorsed by the entire VXIplug&play Systems Alliance, including Tektronix, Hewlett-Packard, Racal Instruments, and GenRad. Because MXI is an open benchmark documented with a comprehensive specification, anyone can develop products that will live integrated into an MXI controlled system.

    Dell EMC-VMware Integration Paying Off In titanic Channel Sales Gains | existent questions and Pass4sure dumps

    VirtuIT Systems President Michael Murphy is seeing titanic sales gains as a result of the increasingly taut engineering integration between Dell EMC and VMware offerings.

    In fact, Murphy, a longtime Dell confederate based in Nanuet, N.Y., said VirtuIT’s Dell EMC networking industry is up 200 percent, while his storage sales are up as much as 40 percent as a result of the Dell EMC-VMware collaboration.

    “The key for us to being successful is to live that bridge for Dell EMC and VMware,” said Murphy. “We bring everything together so that the customer sees us as the means to the discontinue to find them on their route to digital transformation.”

    Murphy isn’t alone. Other Dell partners are besides seeing titanic sales gains as a result of the breakthroughs in product simplicity and price/performance from the Dell EMC and VMware engineering teams working side by side.

    Technology collaboration between the two companies this year is set to “accelerate” across a wide variety of areas ranging from client and desktop offerings to storage and networking, said Tom Sweet, executive vice president and CFO at Dell.

    “You study at the number of solution workstreams that they occupy going privilege now with VMware—whether it’s around hyperconverged infrastructure or Workspace ONE in their client space or around what we’re doing with vSAN and vSAN Ready Nodes—so across the spectrum you’re going to survey us accelerate a number of these integrated solutions. We’re optimistic and excited about it,” said Sweet. “VMware is a considerable platform in the market in terms of their position in virtualized infrastructure, but you besides reflect about what they’re doing with VMware’s NSX and the network, they occupy a lot of activity going on in the networking space. It’s pretty exciting times.”

    Ashley Gorakhpurwalla, president and generic manager of Dell EMC’s Server and Infrastructure Systems, said working hand in hand with VMware’s engineering and evolution teams has given Dell EMC what he calls a “complete advantage” to drive technology differentiation in the intensely competitive hyper-converged market.

    “Under the Dell Technologies umbrella, what we’re able to establish together is really co-engineering with VMware,” he said. “We occupy a combined team. It’s not a Dell EMC or a VMware team. It is a combined team.”

    That means top engineers from both companies are “dedicated to the job of edifice the best hyper-converged infrastructure operating system and appliance,” said Gorakhpurwalla.

    “We gained incredible scale through their PowerEdge [server] industry that allows us to unlock different levels of technology, but most importantly, they opened up one more plane of deep integrated engineering because now they own everything—all the route from the silicon, fiberglass and sheet metal, gross the route up to the cloud,” said Gorakhpurwalla.

    Another significant channel benefit from the tighter relationship is that VMware channel reps and account managers are now working alongside Dell EMC’s channel teams.

    “The VMware reps are in the selfsame domain offices as the Dell guys,” said Murphy. “One of the first questions we’re now asking their sales team is, ‘Who is the VMware rep? If you don’t know the VMware rep, then you’re not doing the privilege activities in terms of sales.’”

    The stepped-up 2019 Dell EMC-VMware integration nasty comes on the heels of a blizzard of product integrations including Dell Provisioning for VMware’s Workspace ONE, which enables automatic device setup and extends the efficiencies of cloud management. In addition, Dell’s VxRack hyper-converged system now integrates with updated versions of VMware’s Cloud Foundation, NSX and vRealize Suite, as well as with VMware’s multi-cloud Software-as-a-Service solution, VMware Cloud Assembly.

    Looking ahead, Gorakhpurwalla said if VMware has a technology on its road map, you can ante that it will live on the Dell EMC road map as well.

    “We occupy a commitment that when VMware offers a feature, a capability, they already know about it—we’ve already tested it and we’ll fabricate it available to partners and customers within that month,” Gorakhpurwalla said. “If they release an express patch to a major release, we’ll live there at the selfsame time because we’re co-engineering and customers are asking us to live able to provide the quickest time to market with these value-added features.”

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    SASInstitute [15 Certification Exam(s) ]
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    SCO [10 Certification Exam(s) ]
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    SDI [3 Certification Exam(s) ]
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