丽台Quadro 4000参数

丽台Quadro FX4500&FX3450将首度披露发表于2005-07-29 08:08:35 | 原创 | / | 作者 ice7blue | 责编 super丽台科技身为除日本之外的NVIDIA亚洲区工作站显示卡独家合作伙伴，正式推出最新超高阶NVIDIA Quadro FX 4500和FX 3450工作站显示卡，这两款创新产品也将于即将举行的SIGGRAPH 2005展中首度曝光。

(/s2005/) SIGGRAPH 2005展将于7月31日至8月4日在洛杉矶举行，多项动画、美术设计、游戏、虚拟实境与网页设计的专业应用、创新技术与专题活动都将陆续展开。

丽台NVIDIA Quadro FX 4500与FX 3450是目前市面上具最高效能的影像解决方案，这两款超高阶显示卡配备划时代的全新架构，拥有比前一代显示卡高出2倍的几何与填充率、高出5倍的硬件像素读回能力、和超过1.25倍的内存频宽，甚至分别拥有512MB与256MB的超高速GDDR3内存，是与GeForce 系列7800 GTX与GT (G70)架构同等级的相应工作站专业显示卡产品。

创新的旋转网格线全景反锯齿技术，足以应付多样本取样环境中的复杂要求，明显改善色彩精确度和边线的视觉准确性。

丽台Quadro FX 4500与FX 3450超高阶GPU采用革命性的全新绘图架构，锁定最困难的专业绘图显像领域，挑战过去无法实现的显示卡功能与性能，在Quadro一系列的PCI Express工作站显示卡家族中，属于顶级性能的超高阶产品，提供每位使用者梦寐以求的专业绘图功能。

丽台Quadro FX 4500与FX 3450支持NVIDIA SLI（双插卡绘图技术，Scalable Link Interface），此种创新技术可藉由在单一PCI Express系统上连结多个NVIDIA图形芯片（GPU），达到聪明地扩充显示卡效能的目的。

SLI技术分别以内部架构与外部架构扩充算法，加强两个GPU的几何与填充率/像素着色表现；再充分利用PCI Express架构带来的最高频宽，最大限度提高图形芯片和系统性能，每颗GPU都可享有最大连接通道，让专业使用者能够利用第二片显示卡实现极速性能。

nvidia专业显卡NVIDIA是全球领先的图形处理器制造商之一，该公司的专业显卡产品被广泛应用于科学计算、人工智能、设计与制造、媒体与娱乐等领域。

专业显卡是为满足专业用户的高性能计算需求而设计的，具有更高的计算能力和图形处理能力，相比于消费级显卡，性能更强大、稳定性更高、生产效率更高。

以下是几款NVIDIA的专业显卡的介绍。

1. NVIDIA Quadro RTX 8000Quadro RTX 8000是NVIDIA旗舰级的专业显卡，采用了Turing架构，拥有4608个CUDA并行处理器和48GB的高速显存。

它提供了卓越的计算性能和强大的图形处理能力，适用于科学计算、深度学习、虚拟现实和大规模可视化等领域。

Quadro RTX 8000还支持光线追踪技术，能够实现更真实的光影效果。

2. NVIDIA Quadro P5000Quadro P5000是一款中高端的专业显卡，采用了Pascal架构，具有2560个CUDA并行处理器和16GB的显存。

它具备出色的计算性能和渲染能力，适合于CAD、虚拟现实、医学影像处理等专业设计和计算任务。

Quadro P5000还支持多显示器输出和多GPU并行计算，为用户提供更高的生产力和创造力。

3. NVIDIA Quadro K4000Quadro K4000是一款入门级的专业显卡，采用了Kepler架构，具有768个CUDA并行处理器和3GB的显存。

尽管性能低于高端显卡，但Quadro K4000仍具备良好的图形处理能力和计算性能，适合于制造、建筑、娱乐和媒体等领域的专业应用。

Quadro K4000支持DirectX 11和OpenGL 4.5技术，并提供了多种输出接口和显示方式选择。

4. NVIDIA Tesla V100Tesla V100是一款专为数据中心和科学计算而设计的显卡，采用了Volta架构，具有5120个CUDA并行处理器和16GB的高速HBM2显存。

The world’s mosT powerful Gpu NVIdIA® QuAdro® 6000Built on the innovative NVIDIA Fermi architecture, Quadro professional-class solutions are the first to integrate high performance computing capabilitieswith advanced visualization techniques, transforming modern workflows. Featuring a new Scalable Geometry Engine™, Quadro 6000 can deliver up to an unheard of 1.3 billion triangles per second, shattering previous 3D performance benchmarks.1 Modern applications harness the latest NVIDIA® CUDA™ parallel processing architecture of Quadro GPU to deliver performance gains up to 8x faster compared to previous generations when running computationally intensive applications such as ray tracing, video processing and computational fluid dynamics. For high-precision, data sensitive applications, Quadro GPUs are the only professional graphics solution with ECC memory and fast double precision capabilities to ensurethe accuracy and fidelity of your results.From medical imaging to structural analysisapplications, data integrity and precision isassured, without sacrificing performance.Quadro 6000 is not only a graphicsprocessor; it’s an entire visualsupercomputing platform, incorporatinghardware and software that enablesadvanced capabilities such as stereoscopic3D, scalable visualization and 3D high-definition broadcasting. The result is a visualsupercomputer right at your desk, capableof changing the way you work every day.produCT speCIfICATIoNsCUDA PARAllElPROCESSING CORES>448FRAME BUFFER MEMORy> 6 GB2 GDDR5MEMORy INTERFACE>384-bitMEMORy BANDwIDTH>144 GbpsMAx POwER CONSUMPTION>225 wGRAPHICS BUS>PCI Express 2.0 x16DISPlAy CONNECTORS*>Dual link DVI-I (1), DisplayPort (2)STEREO 3D CONNECTOR>3-pin mini DIN3D VISION PRO SUPPORT>3-pin mini DIN or USBFORM FACTOR> 4.376” H x 9.75” l /Dual SlotECC MEMORy>yesFAST DOUBlE PRECISION>yesNVIDIA SlI TECHNOlOGy>Available on Quadro SlI certifiedplatformsG-SyNC>CompatibleHD SDI CAPTURE/OUTPUT>Compatible*Two out of any three connectors can be active at a timeThe NVIDIA® Quadro® 6000 professional graphics solution is a truetechnological breakthrough, delivering up to 5x faster performance across abroad range of design, animation and video applications.1Raw throughput number calculated by graphics processing clusters, GPU clock rate, and triangle throughput.26GB is supported on win7 and linux64 (4GB memory limit on windows xP64) via Rel 256 driver.QUADRO 6000 | DATASHEET | OCT10To learn more about NVIDIA Quadro, go to /quadro© 2010 NVIDIA Corporation. All rights reserved. NVIDIA, the NVIDIA logo, NVIDIA Quadro, CUDA, GigaThread, Parallel DataCache, 3D Vision, and SlI are trademarks and/or registered trademarks of NVIDIA Corporation. All company and product names are trademarks or registered trademarks of the respective owners with which they are associated. Features, pricing, availability, and specifications are allsubject to change without notice.supporTed plATforms>Support for two operating systems, from a Quadro SlI Multi-OS certified workstation, with each operating system assigned to a dedicated Quadro GPU>Microsoft windows 7 (64-bit and 32-bit) >Microsoft windows Vista (64-bit and 32-bit)>Microsoft windows xP (64-bit and 32-bit)>Microsoft windows 2000 (32-bit)>linux ® - Full OpenGl implementation, complete with NVIDIA and ARB extensions (64-bit and 32-bit) >Solaris ®3d GrAphICs ArChITeCTure>Scalable geometry architecture >Hardware tessellation engine >NVIDIA GigaThread engine with dual copy engines >Shader Model 5.0(OpenGl 4.0 and Directx 11) >Optimized compiler for Cg and Microsoft HlSl>Up to 16K x 16K texture and render processing>Transparent multi-sampling and super sampling >16x angle independent anisotropic filtering>128-bit floating point performance >32-bit per-component floating pointtexture filtering and blending>64x full scene antialiasing (FSAA)/128x FSAA in SlI Mode>Decode acceleration for MPEG-2, MPEG-4 Part 2 Advanced Simple Profile, h.264, MVC, VC1, Divx (version 3.11 and later), and Flash (10.1 and later)>Blu-ray dual stream hardwareacceleration (supporting HD picture-in-picture playback)NVIdIA CudA pArAllelproCessING ArChITeCTure>API support includes: CUDA C, CUDA C++, DirectCompute 5.0, Java, Python and Fortran>NVIDIA Parallel DataCache hierarchy (configurable l1 and unified l2 caches) >64 KB of RAM (configurable partitioning of shared memory and l1 cache) >Full IEEE 754-2008 - 32-bit and high performance 64-bit double precision >Dual warp Scheduler (schedules and dispatches simultaneously instructions from two independent warps)AdVANCed dIsplAy feATures>30-bit color (10-bit per each red, green, blue channel)>Support for any combination of two connected displays>Dual DisplayPort (up to 2560x1600 @ 60Hz and 1920x1200 @ 120Hz)>Dual-link DVI-I output (up to 2560x1600@ 60Hz and 1920x1200 @ 120Hz) >Internal 400MHz DAC DVI-I output(analog display up to 2048x1536 @ 85Hz) >DisplayPort to VGA, DisplayPort to DVI-D (single-link and dual-link) and DisplayPort to HDMI cables (resolution support based on cable specifications) >DisplayPort 1.1a, HDMI 1.3a, and HDCP support>10-bit internal display processing(hardware support for 10-bit scanout for both windowed desktop and full screen, only available on windows and linux with Aero disabled)>NVIDIA ® 3D Vision ™ technology, 3D DlP, Interleaved, and other 3D stereo format support>Full OpenGl quad buffered stereo support>Underscan/overscan compensation and hardware scaling>NVIDIA ® nView ® multi-display technology>NVIDIA ® SlI ® Mosaic TechnologydIsplAyporT ANd hdmI dIGITAl AudIo>Support for the following audio modes: Dolby Digital (AC3), DTS 5.1, Multi-channel (7.1) lPCM, Dolby Digital Plus (DD+), and MPEG-2/MPEG-4 AAC>Data rates of 44.1KHz, 48KHz, 88.2KHz, 96KHz, 176KHz, and 192KHz>word sizes of 16-bit, 20-bit and 24-bitTeChNICAl speCIfICATIoNsNVIdIA ® QuAdro ® 6000。

NVIDIA® Spectrum™ SN4000 series switches are the 4th generation of Spectrumswitches, purpose-built for leaf/spine/super-spine datacenter applications. Allowing maximum flexibility, SN4000 series provides port speeds spanning from 1GbE to 400GbE, with a port density that enables full rack connectivity to any server at any speed. In addition, the uplink ports allow a variety of blocking ratios to suit any application requirement.The SN4000 series is ideal for building wire-speed and cloud-scale layer-2 and layer-3 networks. The SN4000 platforms deliver high performance, consistent low latency along with support for advanced software defined networking features, making it the ideal choice for web scale IT, cloud, hyperconverged storage and data analytics applications. Network Disaggregation: NVIDIA Open EthernetOpen Ethernet breaks the paradigm of traditional switch systems, eliminating vendor lock-in. Instead of forcing network operators to use the specific software that is provided by the switch vendor, Open Ethernet offers the flexibility to use a choiceof operating systems on top of Ethernet switches, thereby re-gaining control of the network, and optimizing utilization, efficiency and overall return on investment. Open Ethernet adopts the same principles as standard open solutions for servers and storage, and applies them to the world of networking infrastructure. It encourages an ecosystem of open source, standard network solutions.These solutions can then be easily deployed into the modern data center across network equipment that eases management and ensures full interoperability. With a range of system form factors, and a rich software ecosystem, NVIDIA SN4000 series allows you to pick and choose the right components for your data center.NVIDIA SN4000 SeriesSN4000 series platforms are based on the high-performance Spectrum-3 ASIC with a bidirectional switching capacity of 12.8Tbps. SN4000 platforms are available in a range of configurations, each delivering high performance combined with feature-rich layer2 and layer3 forwarding, ideally suited for both top-of-rack leaf and fixed configuration spines. SN4000 series provides full wire speed, cut through-mode latency, on-chip fully-shared 64MB packet buffering, and flexible port use in addition to advanced capabilities. Combining a wide range of innovations in the area of programmability, telemetry, and tunneling with industry leading performance, NVIDIA SN4000 series is capable of addressing today’s data center’s complex networking requirements.VISIBILITY>What Just Happened?® (WJH) telemetry dramatically reduces mean time to issue resolution by providing answers to: When, What, Who, Where and Why>Hardware-accelerated histograms track and summarize queue depthsat sub-microsecond granularity>Inband network telemetry(INT)-ready hardware>Streaming Telemetry>512K on-chip flow counters PERFORMANCE>Fully shared packet buffer provides a fair, predictable and high bandwidth data path >Consistent and low cut-through latency >Intelligent hardware-accelerated data movement, congestion management and load balancing for RoCE and Machine learning applications that leverage GPUDirect®>Best-in-class VXLAN scale-10X more tunnels and tunnel endpoints>512K shared forwarding entriesflexibly shared across ACL, LPM routes, host routes, MAC, ECMPand tunnel applications>Up to 1M IPv4 route entriesAGILITY>Comprehensive Layer-2, Layer-3and RoCE>Advanced network virtualization with high performance single pass VXLAN routing and IPv6 segment routing>Cloud Scale NAT – 100K+ sessions>Programmable pipeline that can programmatically parse, processand edit packets>Deep Packet Inspection – 512B deepNVIDIA SpECTRUMSN4000 SERIES SWITCHES for accelerated data centers DATASHEETSN4700The SN4700 spine/super-spine offers 32 ports of 400GbE in a compact 1U form factor . It enables connectivity to endpoints at varying speeds and carries a throughput of 12.8 Tb/s, with a landmark 8.4Bpps processing capacity. As an ideal spine solution, the SN4700 allows maximum flexibility, with port speeds spanning from 1 to 400GbE per port.SN4600SN4600 is a 2U 64-port 200GbE spine that can also be used as a high density leaf, fully splittable to up to 128X 10/25/50GbE ports when used with splitter cables. SN4600 allows for maximum flexibility, with ports spanning from 1 to 200GbE and port density that enables full rack connectivity to any server at any speed, and a variety of blocking ratios.SN4600CSN4600C is a 64-port 100GbE switch system that is ideal for spine/super-spine applications. With a landmark 8.4Bpps processing capacity and 6.4Tb/s throughput in a dense 2U form factor, SN4600C offers diverse connectivity in combinations of 10/25/40/50/100GbE. The SN4600C is well-suited to answer the challenging needs of large virtualized data centers and cloud environments.SN4410SN4410 is a 48-port 100GbE (24x QSFP28-DD) + 8x 400GbE (8x QSFP56-DD) leaf/spine switch system. The SN4410 is ideal for interconnecting 100GbE servers and networks to 400GbE infrastructure. With a landmark 8.4Bpps processing capacity and 8.0Tb/s throughput in a dense 1U form factor, SN4410 offers diverse connectivity in combinations of 10/25/40/50/100/200/400GbE.SN4800SN4800 is a modular switch platform ideally-suited for large virtualized data centers and cloud environments, allowing flexibility and customization with up to 8 line cards and a single management card. Demonstrating a landmark 8.4B pps processing capacity and up to 12.8Tb/s throughput in a versatile 4U form factor . The SN4800 offers 10/25/40/50/100GbE connectivity with a 16 x 100GbE (QSFP28) line card.Linux Switch†††††* Future Optionplatform Software OptionsSN4000 series platforms are available out of the factory in three different flavors:>Pre-installed with NVIDIA Cumulus Linux, a revolutionary operating system, taking the Linux user experience from servers to switches and providing a rich routing functionality for large scale applications.>Pre-installed with NVIDIA Onyx™, a home-grown operating system utilizingcommon networking user experiences and an industry standard CLI.>Bare metal including ONIE image, installable with any ONIE-mounted OS.ONIE-based platforms utilize the advantages of Open Networking and theSpectrum-3 ASIC capabilities.High AvailabilitySN4000 series switches are designed with the following software and hardware features for high availability:>1+1 hot-swappable power supplies and N+1 hot-swappable fans>Color-coded PSUs and fans>Up to 128X 100/50/25/10/1GbE, 64X 200GbE or 32X 400GbE>Multi-chassis LAG for active/active L2 multipathing>128-way ECMP routing for load balancing and redundancySN4000 Series: A Rich Software EcosystemNVIDIA Cumulus-LinuxNVIDIA Cumulus Linux is a powerful open network operating system enabling advanced automation, customization and scalability using web-scale principles like the world’s largest data centers. It accelerates networking functions and provides choice from an extensive list of supported switch models including Spectrum based switches. Cumulus Linux was built for automation, scalability and flexibility, allowing you to build data center and campus networks that ideally suits your business needs. Cumulus Linux is the only open network OS that allows you to build affordable and efficient network operations like the world’s largest data center operators, unlocking web-scale networking for businesses of all sizes.SONiCSONiC was designed for cloud networking scenarios, where simplicity and managing at scale are the highest priority. NVIDIA fully supports the Pure Open Source SONiC from the SONiC community site on all of the SN4000 series switch platforms. With advanced monitoring and diagnostic capabilities, SONiC is a perfect fit for the NVIDIA SN4000 series. Among other innovations, SONiC on SN4000 series enables fine-grained failure recovery and in-service upgrades (ISSU), with zero downtime.Linux Switch and DentLinux Switch enables users to natively install and use any standard Linux distributionas the switch operating system, such as DENT, a Linux-based networking OS stackthat is suitable for campus and remote networking. Linux Switch is based on a Linux kernel driver model for Ethernet switches (Switchdev). It breaks the dependency of using vendor-specific, closed-source software development kits. The open-source Linux driver is developed and maintained in the Linux kernel, replacing proprietary APIs with standard Linux kernel interfaces to control the switch hardware. This allows off-the-shelf Linux-based networking applications to operate on Spectrum-based switches for L2 switching and L3 routing, including open source routing protocol stacks, such as FRR (Quagga), Bird and XORP, OpenFlow applications, or user-specific implementations.NVIDIA OnyxOnyx is a high performance switch operating system, with a classic CLI interface. Whether building a robust storage fabric, cloud, financial or media and entertainment fabric, customers can leverage the flexibility of Onyx to tailor their network platform to their environment. With built-in workflow automation, monitoring and visibility tools, enhanced high availability mechanisms, and more, Onyx simplifies network processes and workflows, increasing efficiencies and reducing operating expenses and time-to-service. Onyx leverages capabilities of the SN4000 series to provide greater magnitudes of scale, state-of-the-art telemetry, enhanced QoS, exceptional programmability that enables a flexible pipeline supporting both new and legacy protocols, a larger fully-shared buffer, and more**.NVIDIA NetQNVIDIA NetQ is a highly-scalable, modern, network operations tool set that provides visibility, troubleshooting and lifecycle management of your open networks inreal time. NetQ delivers actionable insights and operational intelligence about the health of your data center and campus networks — from the container or host, all the way to the switch and port, enabling a NetDevOps approach. NetQ is the leading network operations tool that utilizes telemetry for deep troubleshooting, visibility and automated workflows from a single GUI interface, reducing maintenance and network downtimes. With the addition of full lifecycle management functionality, NetQ now combines the ability to easily upgrade, configure and deploy network elements with a full suite of operations capabilities, such as visibility, troubleshooting, validation, trace and comparative look-back functionality.ONIEThe open network install environment (ONIE) is an open compute project open source initiative driven by a community to define an open “install environment” for bare metal network switches, such as the NVIDIA SN4000 series. ONIE enables a bare metal network switch ecosystem where end users have a choice of different network operating systems.Docker ContainersNVIDIA fully supports the running of third party containerized applications on the switch system itself. The third party application has complete access to the bare-metal switch via its direct access to the SDK. The switch has tight controls over the amount of memory and CPU cycles each container is allowed to use, along with fine grained monitoring of those resources.Docker Containers SupportNVIDIA Spectrum-3: Build your cloud without compromise Groundbreaking PerformancePacket buffer architecture has a major impact on overall switch performance.The Spectrum-3 packet buffer is monolithic and fully shared across all ports, supporting cut-through line rate traffic from all ports, without compromising scale or features. With its fast packet buffer, Spectrum-3 is able to provide a high-performance fair and bottleneck-free data path for mission-critical applications.Pervasive VisibilitySpectrum-3 provides deep and contextual network visibility, which enables network operators to proactively manage issues and reduce mean time to recovery/innocence. The WJH feature leverages the underlying silicon and software capability to provide granular and event-triggered information about infrastructure issues. In addition, the rich telemetry information from Spectrum-3 is readily available via open APIs that are integratable with third party software tools and workflow engines. Unprecedented AgilityFor modern data center infrastructure to be software defined and agile, both its compute and network building blocks need to be agile. Spectrum-3 features a unique feature rich and efficient packet processing pipeline that offers rich data center network virtualization features without compromising on performance or scale. Spectrum-3 has a programmable pipeline and a deep packet parser/editor that can process payloads up to the first 512B. Spectrum-3 supports single pass VXLAN routing as well as bridging. Additionally, Spectrum-3 supports advanced virtualization features such as IPv6 segment routing, and Network Address Translation (NAT). Massive ScaleThe number of endpoints in the data center is increasing exponentially. With the current shift from virtual machine-based architectures to container-based architectures, the high-scale forwarding tables required by modern data centers and mega-clouds increase by up to an order of magnitude or more. To answer these needs for scalability and flexibility, Spectrum-3 uses intelligent algorithms and efficient resource sharing, and supports unprecedented forwarding table, counters and policy scale.>Fine-grained resource allocation to fit all specific needs, allowing up to 512Kentries to be dynamically shared across MAC, ARP, IPv4/IPv6 routes, ACLs,ECMP, and Tunnels.>An innovative algorithmic TCAM optimized for data centers and cloudenvironments, which can scale the number of rules to up to half a million rules.End-to-End SolutionThe SN4000 series is part of the NVIDIA complete end-to-end solution which provides 1GbE through 400GbE interconnectivity within the data center. Other devices in this solution include ConnectX®-based network interface cards and LinkX® copper or fiber cabling.specificationsSupported Transceivers and CablesOrdering informationComplianceAccessories and Replacement partsNVIDIA SN4000 series switches come with a one-year limited hardware return-and-repair warranty, with a 14 business day turnaround after the unit is received. For more information, please visit the NVIDIA Technical Support User Guide .Additional InformationSupport services including next business day and 4-hour technician dispatch are available. For more information, please visit the NVIDIA Technical Support User Guide . NVIDIA offers installation, configuration, troubleshooting and monitoring services, available on-site or remotely delivered. For more information, please visit the NVIDIA Global Services website .Ordering InformationFor ordering information, please contact *************。

NVIDIA QuADro rTX 4000 | DATA SheeT | July191 In preparation for the emerging VirtualLink standard, Turing GPUs have implemented hardware support according to the “VirtualLink Advance Overview”. To learn more about VirtualLink, please see | 2 Via adapter/connector/bracket 3 Quadro Sync II card sold separately | 4 Windows 7, 8, 8.1, 10 and Linux | 5 GPU supports DX 12.0 API, Hardware Feature Level 12_1 6 Product is based on a published Khronos Specification, and is expected to pass the Khronos Conformance Testing Process when available. Current conformance status can be found at /conformance © 2019 NVIDIA Corporation. All rights reserved. NVIDIA, the NVIDIA logo, Quadro, nView, CUDA, and NVIDIA Turing are trademarks and/ or registered trademarks of NVIDIA Corporation in the U.S. and other countries. OpenCL is a trademark of Apple Inc. used under license to the Khronos Group Inc. All other trademarks and copyrights are the property of their respective owners.experience real Time ray Tracing in a Single Slot Form Factor .Meet the challenge of today’s demanding professional workflows with NVIDIA ® Quadro RTX ™ 4000, powered by NVIDIA Turing ™ architecture and the NVIDIA RTX ™ platform. The NVIDIA Quadro RTX 4000 delivers GPU accelerated ray tracing, deep learning, and advanced shading in an accessible single slot form factor . It gives designers the power to accelerate their creative efforts with faster time to insight and faster time to solution. Equipped with 2304 CUDA ® cores, 288 Tensor Cores, 36 RT cores and 8 GB GDDR6 memory, the Quadro RTX 4000 is designed to manage the most intensive AEC, DCC, AI, VR and graphics workloads. And with the industry’s first implementation of the all-new VirtualLink 1, Quadro RTX 4000 provides simplified connectivity to next-generation, high-resolution VR head-mounted displays, letting designers work in the most compelling virtual environments.Quadro is certified with a broad range of sophisticated professional applications, tested by leading workstation manufacturers, and backed by a global team of NVIDIA support specialists so you can focus on doing your best work. Whether you’re developing revolutionary products or telling spectacularly vivid visual stories, do it brilliantly with Quadro performance.FEATURES >Three DisplayPort 1.4 Connectors >VirtualLink Connector 1 >DisplayPort with Audio >VGA Support 2 >3D Stereo Support with Stereo Connector 2 >NVIDIA GPUDirect ™ Support >Quadro Sync II 3 Compatibility >NVIDIA nView ® Desktop Management Software >HDCP 2.2 Support >NVIDIA Mosaic 4SPECIFICATIONS GPU Memory 8 GB GDDR6Memory Interface 256-bit Memory Bandwidth Up to 416 GB/s NVIDIA CUDA ® Cores 2304 NVIDIA Tensor Cores 288NVIDIA RT Cores 36 Single-Precision Performance 7.1 TFLOPS Tensor Performance 57.0 TFLOPS System Interface PCI Express 3.0 x16 Power Consumption Total board power: 160 W Total graphics power: 125 W Thermal Solution Active Form Factor 4.4” H x 9.5” L, Single Slot Display Connectors 3xDP 1.4, 1x USB-C Max Simultaneous Displays 4x 3840x2160 @ 120 Hz 4x 5120x2880 @ 60 Hz 2x 7680x4320 @ 60 HzVR Ready YesGraphics APIs Shader Model 5.15, OpenGL 4.66, DirectX 12.05, Vulkan 1.16Compute APIsCUDA, DirectCompute, OpenCL ™ reAl TIMe MeANS reAl ChANGe NVIDIA QuADro rTX 4000To learn more about the NVIDIA Quadro RTX 4000, visit /quadro。

Quadro系列专业显卡与Geforce系列游戏显卡到底有什么区别，下面笔者就来简单的说一下这个问题，我们就拿Quadro和Geforce来说吧：区别1：点线硬件抗锯齿功能在CAD软件中，模型一般是以精确的数学方程进行描述,在显示的时候则转换成相应的几何数据送入GPU进行显示的处理。

线框模式是CAD的设计者经常使用的一种显示模式，因为采用线框模式进行显示可以对特定的或者线进行准确地选操作择并且设计者也容易看清整个模型的结构。

显示器显示图形时必须以像素形式。

因此，模型的线框以像素形式近似地显示就会出现精度降低的问题，表现在屏幕上就是线条和曲面、实体的边缘线框不光滑，锯齿现象非常明显。

对于规模庞大且精细的CAD线条图形而言，锯齿对显示效果的影响是很明显的，甚至会看不清具体的结构。

Quadro专业显卡对线框的显示具备矢量点线硬件抗锯齿功能，在数据量大幅度增加的情况下，减轻甚至消除了锯齿问题，从而提高了图形的显示质量。

Quadro系列专业显卡与Geforce消费级显卡在点线硬件抗锯齿方面的区别区别2：OpenGL硬件逻辑操作CAD图形设计过程是人机交互的过程，设计人员经常需要对三维图形中特定的点、线、面进行拾取，以执行特定的操作。

比较典型的操作过程是：选取操作对象，旋转、局部放大或平移，执行后续操作，这一过程完全是用户和计算机图形的精确交互。

被拾取的部分图形必须准确地得到突出显示，如变成不同的颜色或变得具有透视效果，这种图形的交互式逻辑操作需要显卡的硬件支持，而这就是Quadro的OpenGL硬件逻辑操作功能，而这一功能需要显卡硬件对OpenGL的完美支持。

对于GeForce显卡的用户而言，游戏过程中并不需要精确的图形交互（在三维图形环境下的直接、频繁交互），因此，这种矢量图形的硬件逻辑操作也是GeForce显卡所不提供的。

没有硬件逻辑操作功能的GeForce显卡在CAD软件下，将此部分操作转交给了软件系统，增加了系统的负担。

电脑显示卡NVIDIAQuadro4000与k2200效能差异大不大，大概差多少？电脑显示卡NVIDIA Quadro 4000 与k2200效能差异大不大，大概差多少？中关村有报价，价位决定效能。

看配置目前市面上有两种型号：1，开普勒架构 Q410 K600 K2000 K4000 K5000 K6000，13年初上市2，麦克斯韦新架构 K420 K620 K2200 K4200 K5200，今年8月底上市Q410 ，K600，K420，K620属于入门级。

K2000，K2200属于中端K4000，K4200以上属于高阶。

64位的显示卡和128位的显示卡效能差异大不大差异是比较大的，但是价格也是差的有点多。

因为通道多了一倍，所以执行速度快一倍，但是同时能耗也比较厉害。

显示卡8800gt和720m哪个好？效能大概差多少= =....1楼的不要乱说，8800GT匹敌独显GT630！30帧左右，720M渣渣。

20帧不到连核显都不如。

8800GT和720M根本不是一个级别好不好 = =。

8800GT 引数：显示卡核心频率：600MHz视讯记忆体频率：1800MHz 位宽：256bitGDDR3视讯记忆体颗粒 CUDA：112个GT720M 引数：显示卡核心频率：600MHz视讯记忆体频率：1600MHz 位宽：64bit （坑爹）GDDR3视讯记忆体颗粒流处理器：96个GT755显示卡跟GT*780显示卡差别大不大，玩游戏大概相差多大？这可差多了，平常的办公都一样，但是到游戏，3d建模，数学建模，各种科学计算，破解密码，差别能相差好几倍甚至几十倍，比如755玩现在的游戏只能开中效果，帧数还在20上下，而780就能最高并且流畅，用显示卡运算的破解软体，配合彩虹表破解各类密码755如果100亿每秒，而780可以达到1000亿每秒上下。

GTX950和960效能大概差多少？也就差一个等级，这两种显示卡就分别是以前的GTX660和GTX760两高功耗显示卡的优化版，在功耗上化了很多，效能上也就相差30%左右。

显卡p4000P4000显卡是由英伟达(NVIDIA)公司推出的一款专业级工作站显卡。

它基于Pascal架构，具有先进的GPU性能和大容量的显存，适合于CAD、设计、建模、动画和虚拟现实等专业应用。

以下是关于P4000显卡的详细介绍。

P4000显卡采用了Pascal GP104 GPU，具有1792个CUDA核心，这使得它能够提供出色的GPU计算能力和图形处理性能。

它的基本时钟频率为1303 MHz，Boost时钟频率为1480 MHz，而且还配备了8GB GDDR5显存，256-bit存储总线和192GB/s的内存带宽。

这些技术配置使得P4000能够轻松处理复杂的图形计算和大型模型渲染，确保用户能够获得流畅的工作体验。

P4000显卡支持多个显示输出，包括四个DisplayPort 1.4和一个Dual-Link DVI-D接口。

它还支持NVIDIA的VR Ready技术，允许用户在虚拟现实环境中创建和编辑内容。

此外，P4000还支持NVIDIA的多GPU技术，可以与其他Pascal架构的显卡进行SLI配置，进一步提升性能。

针对专业应用，P4000显卡具备很多专有技术。

例如，它配备了NVIDIA的Quadro Sync II技术，可以实现多个显示设备的同步，确保多屏幕显示的一致性。

此外，它还支持NVIDIA的Mosaic技术，可以将多个显示器组合成一个大型虚拟显示器，提供更大的工作空间。

总的来说，P4000显卡是一款功能强大的专业级工作站显卡，适用于CAD、设计、建模、动画和虚拟现实等专业应用。

它的高性能和先进的技术配置能够满足专业用户对于计算和图形处理的需求，提供流畅、高质量的工作体验。

k4000显卡K4000显卡是由NVIDIA（英伟达）公司推出的一款专业级显卡，它针对工作站和专业设计领域的用户而设计。

以下将对K4000显卡进行700字的介绍。

首先，K4000显卡采用了28纳米制程工艺，搭载了768个CUDA （Compute Unified Device Architecture）核心。

CUDA是NVIDIA开发的一种并行计算架构，能够利用GPU （Graphics Processing Unit）实现高性能的计算应用，因此K4000显卡在处理大量的计算任务时表现出色。

其次，K4000显卡具备4GB的GDDR5显存，采用了384位宽的内存接口，这使得它能够高效地处理大型图形和模型数据。

同时，GDDR5显存具备更快的传输速度和更低的功耗，有助于提升显卡的处理性能和能效。

此外，K4000显卡支持多显示器输出，最多可同时连接4台高分辨率显示器。

这使得用户可以在一个工作站上同时展示多个应用程序或者多个视窗，提升生产效率。

而且，K4000显卡还支持NVIDIA的混合构型技术（NVIDIA Mosaic），允许用户通过软件将多块显卡合并为一个逻辑单元，以获得更高的图形处理能力。

K4000显卡还具备Error-Correcting Code（ECC）内存，该技术可以通过检测和纠正内存错误，提高系统的稳定性和可靠性。

尤其对于对数据准确性要求较高的专业设计领域来说，这一功能非常重要。

此外，K4000显卡还支持最新的渲染技术和专业应用程序，例如OpenGL和OpenCL等。

这使得用户能够在各种专业应用软件中获得更好的视觉效果和更高的性能。

总结起来，K4000显卡是一款专为工作站和专业设计领域用户而设计的显卡产品。

它具备高性能的CUDA核心、4GB的GDDR5显存、多显示器输出、NVIDIA Mosaic技术、ECC内存以及对最新渲染技术和专业应用程序的支持。

这些特点使得K4000显卡成为一款强大的图形处理器，能够满足专业用户对于性能和稳定性的需求。

q4000显卡Q4000显卡是英伟达（NVIDIA）公司推出的一款高性能工作站级显卡，适用于需要处理大规模工作负载和图形计算的专业应用场景。

本文将就Q4000显卡的基本参数、性能特点以及适用场景进行详细介绍。

首先，Q4000显卡采用了40纳米制程工艺，具有256个CUDA并行处理器，支持384位数据总线宽度和2.0版本的PCI-Express接口。

其中，CUDA并行处理器是NVIDIA推出的一种用于进行高性能计算的并行处理单元，可以加速图形渲染、物理仿真、声音合成等计算密集型任务。

而PCI-Express 接口是目前最主流的计算机扩展槽，能够提供更高的数据传输带宽。

其次，Q4000显卡具备2GB GDDR5高速显存，内存频率高达800MHz，带宽达到高达102.4GB/s。

这种高速显存能够提供更大的数据吞吐量，可以满足处理大规模数据集的需求，提高图形渲染和计算性能。

此外，Q4000显卡支持多个显示输出接口，包括两个双链接的DVI接口、两个DisplayPort接口和一个SDI接口。

这种多接口的设计可以方便用户同时连接多个显示设备，满足多屏幕显示和多任务处理的需求。

Q4000显卡在性能方面表现出色。

它能够提供高达5551的GFlops的单精度浮点性能和139GFlops的双精度浮点性能，适用于处理大规模三维渲染、复杂模型仿真和科学计算等工作负载。

同时，它还支持NVIDIA Quadro蒙特卡洛射线追踪加速引擎，能够提供更高质量的光线追踪效果，提升渲染效果和真实感。

最后，Q4000显卡适用于许多专业应用场景。

它可以满足CAD/CAM设计师、动画制作师、医学影像处理师和科学计算人员等领域对高性能计算和图形处理的需求。

它能够提供流畅的工作环境，大幅减少等待时间，提高生产效率。

总结起来，Q4000显卡作为一款高性能工作站级显卡，拥有强大的计算和图形处理性能，是专业应用领域的理想选择。

无论是处理大规模工作负载还是进行复杂的图形计算，Q4000显卡都能够高效地完成任务，提高工作效率。

m4000显卡M4000显卡是由英伟达（Nvidia）公司研发和生产的一款专业级显卡。

它主要用于工作站和工业设计等领域，提供强大的性能和可靠的支持。

首先，M4000显卡具有高度的性能。

它采用了Maxwell架构，配备了1664个CUDA核心，基于28nm制程工艺，使得显卡在数据处理和计算方面具备出色的能力。

这款显卡的GPU主频高达780MHz，超频时可达到超过1GHz的频率。

这样的高性能使得M4000显卡能够处理大量的图形数据和复杂的计算任务，满足专业用户在设计、渲染、建模等方面的需求。

其次，M4000显卡拥有大容量的显存。

它配备了8GB GDDR5显存，带宽高达192.2GB/s。

这款显卡的显存容量非常大，能够存储大量的图像和纹理数据，提供流畅的绘图和渲染效果。

同时，高速的显存带宽使得显卡能够快速读取和写入数据，提供流畅的画面和操作体验。

另外，M4000显卡还支持多个显示输出。

它配备了4个DisplayPort 1.2接口，能够同时连接多个显示器，提供更大的工作区域和更高的分辨率。

多个显示输出的支持使得专业用户能够同时处理多个任务和监控多个程序，提高工作效率和产品质量。

同时，M4000显卡还具有低功耗和高稳定性的优点。

它的设计采用了先进的功耗管理技术，能够根据工作负荷自动调整电源功率和频率，减少能耗和噪音。

此外，显卡还采用了优质的电路和散热技术，能够保持显卡的稳定性和可靠性。

综上所述，M4000显卡是一款专业级的显卡，具备强大的性能、大容量的显存、多个显示输出和低功耗的优点。

它适用于工作站和工业设计等领域，能够提供高效、流畅和可靠的图形处理和计算支持。

无论从用户体验还是专业需求来看，M4000显卡都是一款非常出色的选择。

quadro显卡Quadro是NVIDIA（英伟达）公司推出的专业图形处理单元（GPU）系列产品，主要供工作站和图形工作站使用。

Quadro 显卡以其高性能、稳定性和卓越的图形处理能力而享有盛誉。

首先，Quadro显卡具有强大的计算性能。

相比于普通的显卡，Quadro显卡采用了更多的CUDA核心，可提供更高的并行计算能力。

这使得Quadro显卡在处理大规模数据、进行复杂的计算任务时表现出色。

无论是在科学计算、数字娱乐制作还是虚拟现实领域，Quadro显卡都能够满足专业用户的需求。

其次，Quadro显卡拥有专业的驱动程序支持。

NVIDIA专为Quadro显卡开发了专业的驱动程序，保证了显卡与专业软件的完美兼容性。

这些驱动程序经过严格验证，能够提供稳定、流畅的图形处理效果，并且支持各种专业软件的优化。

专业用户可以放心地使用Quadro显卡进行复杂图形处理任务，无需担心兼容性问题。

此外，Quadro显卡还具备优秀的图形渲染能力。

Quadro显卡采用先进的图形处理技术，能够实现更真实、更逼真的图形渲染效果。

无论是制作电影特效、设计建筑模型还是进行工业设计，Quadro显卡都能够提供高质量的渲染效果，满足专业用户对图形质量的苛刻要求。

此外，Quadro显卡还具备优秀的多显示器支持。

Quadro显卡支持多个显示器的同时输出，可以实现多屏幕工作环境。

这对于需要同时处理多个任务的专业用户非常有用。

无论是在金融分析、医学影像处理还是视频制作中，Quadro显卡都能够提供更高效的工作方式，提升工作效率。

综上所述，Quadro显卡凭借其强大的计算性能、专业的驱动程序支持、优秀的图形渲染能力和多显示器支持，成为专业用户的首选。

无论是在科学研究、数字娱乐制作还是虚拟现实领域，Quadro显卡都能够提供卓越的图形处理能力，帮助用户提升工作效率，实现更好的创作结果。