3D Pro Jesper Graff Ebbesen Citrix Infrastructure Specialist

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1 3D Pro Jesper Graff Ebbesen Citrix Infrastructure Specialist

2 Om mig edgemo siden september 14 års erfaring CCIA – CCE AD MCITP - EA
Citrix XenApp/XenDesktop Citrix XenServer Hvor mange er bekendt med XenApp / XenDesktop? Er i bekendt med begreber som Shared Hosted Desktop, Hosted Desktop, Shared Hosted Applications

3 Agenda Hvad er HDX 3D Pro Udfordringer i dag Segmenter brugerne
Hvad skal der til før en PoC

4 Hvad er HDX 3D Pro? Skalerbar GPU-accelereret rendering
High performance GPU deling af OpenGL, DirectX og CUDA Direkte adgang til NVIDIA/AMD/Intel driver og hardware Kost-effektiv multi-user Windows Server 2008R2/2012 RDSH eller VDI platform H.264 adaptiv kompression Høj framerate (interaktivitet), billede kvalitet og båndbredde effektivitet Decodning på Windows, Mac, IOS, Android, Linux (x86/ARM), ThinOS In an increasingly mobile and global world, manufacturing, design, engineering, and construction apps are creating massive data sets but yet require secure collaboration around the globe. Firms are turning to new Citrix HDX 3D Pro technology with new shared virtual GPU resources to keep data centralized and secure in the datacenter while permitting secure mobile access, even from tablets and smartphones in the field or shop floor. Professional 3D and business graphics for all While virtualizing professional 3D graphics isn’t new, it could be expensive requiring a server or workstation with a powerful, dedicated graphics card for any users wanting to use a professional 3D application. But not any longer, XD empowers engineering, design, and manufacturing companies to collaborate on the largest most sophisticated designs across offices, continents, and among vendors and partners to speed production and quality. HDX 3D Pro technology allows multiple users to share GPU resources fully accelerating OpenGL graphics while keeping intellectual property safe in the datacenter. Users can now take these designs to go on iOS and Android tablets out in the field or on the shop floor making markups and edits on the fly saving time and effort.

5 Udfordringer i dag Produkt- og designdata er placeret på brugernes arbejdspladser - det gør det svært at sikre og dele med andre Asynkron fildeling og datasynkronisering mellem globale designcentre er ikke længere effektivt og vanskeliggør samarbejde Adgang til designs i filialer eller i ‘marken’ for at lave simple rettelser eller analysere ændringer er udfordrende. Deling af produkt eller design med partnere eller leverandører giver øget risiko for IP-tyveri

6 Hvad kan HDX 3D Pro hjælpe med?
Business drivers Global arbejdsstyrke Sikkerhed af intellektuel property Time-to-market Work from anywhere Disaster recovery Cost effektivitet High-performance GPU-deling driver prisen ned per bruger Kun Citrix tilbyder hardware-baseret NVIDIA GRID™ GPU sharing for VDI og RDS Are you ready? Today, you’ll hear our tips for success with HDX 3D Pro PoC’s.

7 Typiske spørgsmål/udfordringer
XenDesktop VDI eller RDS (XenApp)? Hvilket NVIDIA- eller AMD-kort? Hvis XenApp, bare metal eller hypervisor? Hvilken server-hardware? Hvor mange VMs per host? Hvor mange brugere per GPU? Spørgsmål og udfordringer der skal afdækkes før en beslutning

8 Forstå og segmentér brugerne
Tier 1: Professionelle brugere (eks. CAD designere, radiologer) Top renderings performance 3D mouse support Tier 2: Tunge brugere Visning af store 3D-modeller, basisredigering Tier 3: Vidensbrugere Begrænset brug af 3D-grafik 2D apps, Aero-effecter i Windows, HD videos, PowerPoint slide transitions, osv. 1 2 3 Which segment will you target for the PoC? This may be dictated to you by the customer.

9 Brugersegmentet bestemmer den grundlæggende tilgang
Tier 1: Professionelle brugere (eks. CAD designere, radiologer) VDI workload for bedste brugeroplevelse Dedikeret GPU eller high-end vGPU profil Tier 2: Tunge brugere GPU-deling for en rimelig pris per bruger Valg af VDI eller RDS workloads Tier 3: Vidensbrugere Software rendering eller høj deling af GPU 1 2 3 The target segment for the PoC will determine your choice of dedicated or shared GPUs, VDI or RDS workloads, graphics card and server.

10 Vælg det rigtige grafik kort
Faldgruber, der skal undgås Underprovisionering  Dårlig eller inkonsistent brugeroplevelse Overprovisionering  Spild af penge, undtaget hvis der skal fremtidssikres NVIDIA eller AMD? VDI workloads: NVIDIA Quadro-/GRID-kort anbefales  Bedste brugeroplevelse fordi HDX 3D Pro VDI bruger NVIDIA’s GRID™ API RDS workloads: NVIDIA Quadro/GRID og AMD FirePro er lige gode Udvælgelsestilgang Hvilket kort bruges I dag? eller Hvilket kort anbefaler pågældende ISV? Ved GRID vGPU, vælg tilsvarende vGPU-profil Why does it seem to be working? One physical GPU to a XenDesktop VDA (no real sharing of a physical GPU) One physical GPU to a XenApp server (hit or miss, a user density issue) Anbefaling: “Knock their socks off” in the PoC before exploring lowest cost

11 Eksempel: Udvælg en GPU til Dassault CATIA
You will find information on GPU recommendations for the various 3D professional graphics apps either on the NVIDI web site or on the ISV’s own web site. Review the list of 3D apps required by each segment of the user population and choose a GPU that will meet the requirements of the most demanding app.

12 NVIDIA Grafikkort GPU Passthrough GRID vGPU Quadro K6000 Quadro K5000
2880 CUDA cores 12GB Quadro K5000 1536 CUDA cores 4GB Quadro K4000 768 CUDA cores 3GB Quadro K2000 384 CUDA cores 2GB Quadro K600 192 CUDA cores 1GB Quadro 410 512MB GPU Passthrough GRID vGPU GRID K2 2x 1536 CUDA cores 2x 4GB NVIDIA Grafikkort GRID K260Q 768 CUDA cores avg and 2 GB per user GRID K240Q 384 CUDA cores avg and 1GB per user GRID K1 4x 192 CUDA cores 4x 4GB GRID K140Q 192 CUDA cores avg and 1GB per user Once you’ve identified the GPU recommended by the ISV, you can easily map this to GPU Passthrough or GRID vGPU. If you’d normally choose a K2000 card, with vGPU you can choose the K240Q profile, supported by the GRID K2 card. For example, the recommended Quadro card for Dassault CATIA for use in basic modeling and design of parts and simple assemblies is the K2000, so for this use case the equivalent vGPU profile is the K240Q, which implies that you need the GRID K2 card. If you’d normally choose a K4000, then with vGPU you would choose the K260Q profile.

13 Valg af server hardware
Vælg en server, der supporterer dit grafikkortvalg NVIDIA GRID: Kontrollér hypervisor-kompatibilitet! XenServer: Kontroller eDocs for HDX 3D Pro minimums server-krav Since NVIDIA’s GRID boards don't have a graphics out connector, the Windows OS needs to boot to something with a graphics out.  Then that device needs to be disabled, and the GRID boards enabled.  If the OS can boot to the onboard graphics controller, then we are usually good to run the GRID boards to bare metal behind them.

14 Opsummering Forstå målgruppen Segmenter brugertyperne
Vælg mellem VDI og RDS workloads Vælg passende grafikkort Vælg server

15 PoC Guide

16 Step 1: Udforsk eksisterende 3D-brug

17 Analyse af nuværende arbejdsgange
Applikationer og arbejdsgange Fysisk RAM- krav Fysisk GPU- krav GPU-belastning Brugerscenarie AutoDesk Revit AutoDesk Inventor Right Hemisphere DeepView Google Earth Photo redigering ? Lav til Medium Underleverandør Power User Desktop Online training Operatør Single silo, mixed apps Desktop + 3D Apps Komplekse CAD Workstations Medium til Høj Ingeniør AutoDesk Maya CATIA Siemens NX Designer Between the Designers versus Reviewers use types. The GPU requirements may be the same especially when the same complete model is being used. However, if scenario is parts-based (i.e., an engine vs a complete model of the truck) then the GPU requirements will be less.

18 Software Rendering (ingen GPU)
Tier 1: Design ingeniører Top rendering ydelse Olie og Gas, Luftfart CAD/CAM, GIS Kompleks, mission-critical grafik Tung, Krævende Dedikeret GPU GRID Quadro Delt GPU til Desktops  GRID K2 Tier 2: Tunge brugere Editor, Reviewer Beregningstunge Apps Blandet grafisk og ikke-grafiske apps 3D Grafikforbrug Delt GPU til Apps GRID K2 Quadro Delt GPU til Desktops  GRID K1 Tier 3: Vidensbrugere Modern UI, MS Office; let 2D/3D Ingen rendering Software Rendering (ingen GPU) This chart builds, to show how to map different GPU techniologies to different Use-case tiers. The sweet spot is Tier 2 Let, Lejlighedsvis Faste Ressourcer Variable Ressourcer

19 Step 2: Segmentér brugertyper

20 Arbejdsgangseksempel
Brugerplacering Bruger scenarie Ydelses- krav Bruger- type Antal brugere Arbejdsgangseksempel 1.A Ultrahøj Designer 12 Opretter, redigerer og renderer ofte store komplekse 3D modeller 1.B Høj Ingeniør 24 Redigerer og deler ofte disse store 3D modeller 2.A Medium, Konsistent Operatør 48 Udfører komplekse handlinger med flere samtidige instanser af grafikprogrammer 2.B Medium, Periodisk Underleve- randør 116 Behov for at se detaljerede 3D modeller for at udføre relaterede ingeniørmæssige opgaver

21 Valg af NVIDIA-kort Hvilket kort bruges i dag? eller Hvilket kort anbefaler pågældende ISV? Hvad er den tilsvarende vGPU-profil?

22 Eksempel: Dassault CATIA

23 NVIDIA Graphics Cards GPU Passthrough GRID vGPU Quadro K6000
2880 CUDA cores 12GB Quadro K5000 1536 CUDA cores 4GB Quadro K4000 768 CUDA cores 3GB Quadro K2000 384 CUDA cores 2GB Quadro K600 192 CUDA cores 1GB Quadro 410 512MB GPU Passthrough GRID vGPU GRID K2 2x 1536 CUDA cores 2x 4GB NVIDIA Graphics Cards GRID K260Q 768 CUDA cores avg and 2 GB per user GRID K240Q 384 CUDA cores avg and 1GB per user GRID K1 4x 192 CUDA cores 4x 4GB GRID K140Q 192 CUDA cores avg and 1GB per user Once you’ve identified the GPU recommended by the ISV, you can easily map this to GPU Passthrough or GRID vGPU. If you’d normally choose a K2000 card, with vGPU you can choose the K240Q profile, supported by the GRID K2 card. For example, the recommended Quadro card for Dassault CATIA for use in basic modeling and design of parts and simple assemblies is the K2000, so for this use case the equivalent vGPU profile is the K240Q, which implies that you need the GRID K2 card. If you’d normally choose a K4000, then with vGPU you would choose the K260Q profile.

24 NVIDIA-kort optioner Hvad er de egnede kort?
Kort Type Fysisk GPUs CUDA Cores Frame Buffer Memory Memory GB/s Slot PCIe GRID K1 4 192/GPU 4GB DDR3/ GPU 28.5 2 PCI e 3.0 Quadro K600 1 192 1GB DDR3 PCI e 2.0 GRID K2 1536/GPU 4GB DDR5/ GPU 160 Quadro K5000 1536 4GB DDR5 173 Quadro 2000 1GB DDR5 41.6 Quadro 4000 256 2GB DDR5 89.6 Quadro 5000 352 2.5GB DDR5 120 Quadro 6000 448 6GB DDR5 144 = K600 X 4 = K5000 X 2 K1 and Q2000 cards will work well based on CUDA cores requirement. However, Q2000 is sized sufficiently given a 1GB memory, using K1 will have an over-provisioned memory.

25 Så, her er din stykliste Use Case Ydelseskrav Antal brugere
NVIDIA GRID vGPU VM’s per server Total Servers 1.A Ultrahøj 12 Pass- through 4 3 1.B Høj 24 K260Q 8 2.A Medium, Konsistent 48 K240Q 16 2.B Medium, Periodisk 116 Pass- through (Windows Server) (40 brugere/ VM) Redundans N+1 Et kort fejler 2

26 Korrekt segmentering forhindrer under-/over-provisionering
Quick quiz Overcapacity and over cost Underpowered

27 Scalability 3 Servers per use-case 116 Underleverandører 48 Operators
24 Ingeniører 12 Designere 3 servers can support as many as 120 users for less-demanding 2D and 3D apps, or 12 users for ultra-high end apps. Identifying the right use-case and mapping to the right technology can significantly impact the RoI for the project

28 NVIDIA compatibility guarantee

29 Competitive Landscape
User-session Sharing Desktop Sharing Hardware Virtualizatio n NVIDIA GRID Certified OpenGL 4.4, DirectX 11 Citrix XenApp Citrix XenDesktop Microsoft RemoteFX vSphere Shared GPU (vSGA)

30 Spørgsmål???