from your new sister institution in KSA

1. from your new sister institution in KSA GREETINGS

2. Campus KAUST’s CORE LABS Tony Eastham

3. AnalyticalBioscienceCoastal Marine Nanofabrication, Imaging & CharacterizationSupercomputingVisualization Workshops CORE LABS

4. Trace MetalsChromatography and Mass SpectrometrySpectroscopyWet ChemistrySurface Analysis ANALYTICAL LAB

5. Trace Metals Instruments AA Spectrometer ICP-OES CP/IMS

6. GC and GC/MS Systems GC systems with different detectors Bruker Daltonic microTOF II

7. LC and LC/MS Systems Super Critical Fluid LC systems with different detectors

8. Molecular Spectroscopy FT-IR Raman Spectrometer Fluorescence Spectrometer UV/VIS

9. TOC and TOC / NT Fusion TOC TOC/TN

10. Surface Analysis ASAP 2050 Xtended Pressure Sorption Analyzer Surface Area and Porosimetry System

11. GenomicsProteomicsOligonucleotide preparation BIOSCIENCES LAB

12. Bioscience Lab Activities • Serve both Academic and Industrial Research • Whole Genome Sequencing • MicroArray Data Creation and Analysis • High Throughput Sample Preparation using Robotics • Mass Spectrometry • Protein Expression and Purification • Biomarker Identification

13. Next Generation Sequencing Machines ABI SOLiD 3 ILLUMINA GA II ROCHE 454

14. Gene Expression Analysis Modules AGILENT MICROARRAY SCANNER APPLIED BIOSYSTEMS REAL TIME PCR

15. High Throughput Robotic Machines TECAN EVO FREEDOM 200 ROBOTS QPIX COLONY PICKING ROBOTS

16. MassSpectrometers 5500 QTrap MS/MS Bruker Ultraflex III Maldi TOF-TOF Bruker Maxis Q-TOF

17. Facilitates Red Sea R & D • constructs and deploys oceanographic instrumentation • provides operational services to support research vessels for marine exploration, diving and sampling • maintains indoor and outdoor seawater facilities for culturing marine organisms COASTAL MARINE LAB

18. CMOR

19. NANOFABRICATION, IMAGING & CHARACTERIZATON

20. Nanofabrication Facility • Design, fabrication and measurement of micro- and nano-scale materials and devices. • Nanofab serves academic and industrial researchers in : • Natural Sciences : Physics, Chemistry, Biology & Medical Science • Engineering : Electrical, Mechanical, Materials, etc • Research areas supported include : • Micro- & Nano-electronics • Micro- & Nano-fluidics • Optics & Photonics • MEMS and NEMS • Biological & Chemical, etc.

21. Clean Room • 2,000 square meters • Class 1000, with bays at Class 100 • Devices for microelectronic, pharmaceutical and biotech research require minimal contamination • Everyone must pass through strictly controlled chambers to ensure de-contamination and be gowned appropriately

22. Lithography Laser Writer for mask making and direct writing E-beam writer

23. Thin Films MVD 100 Atomic layer deposition (organic, composite and metal layers) Sputtering E-beam evaporator

24. Etching

25. Inspection & Metrology KLA Tencor Profilometer Quanta 3D FEG --SEM/FIB Observation/ micro-welding

26. Imaging & Characterization Suites • Electron Microscopy (TEM, SDB and SEM) • NMR Spectroscopy • Optical / Confocal Microscopy • Thermal Analysis • XRD / XRF • Microwave Analysis • Surface Analysis • Raman • Sample Prep • Image Analysis

27. Transmission Electron Microscopes Titan Basic Materials Science Configuration Titan Krios Titan Basic Biological Configuration Titan Cs Image and Probe correctors Tecnai Spirit Bio Twin Titan Basic Titan ‘cubed’ Tecnai Bio

28. Dual Beam and ScanningElectron Microscopes SDB’s • Helios Nanolab with cryo transfer capability • Quanta 3D FEG • Nova NanoSEM 630 with cryo transfer capability • Quanta 600 FEG • Quanta 200 FEG with Gatan 3-View • Magellan™ XHR SEM SEM’s Quanta 3D Nova Nano Helios NanoLab

29. NMR Spectroscopy • Biology • AVANCE-III 950 MHz • AVANCE-III 700 MHz • AVANCE-III 500 MHz • Materials Science • AVANCE-III 900 MHz WB • AVANCE-III 600 MHz WB • AVANCE-III 400 MHz WB × 2 • Chemistry • AVANCE-III 600 MHz • AVANCE-III 400 MHz • Imaging • AVANCE-III 500 MHz SWB

30. Optical / Confocal Microscopes General purpose upright confocal – basic configuration General purpose upright confocal – advanced configuration General purpose inverted confocal – basic configuration General purpose inverted confocal – advanced configuration Large scale imaging & super zoom microscope Multiphoton Deconvolution system Laser microdisection system Advanced fluorescence imaging

31. Thermal Analysis • Dilatometer (DIL) • Dynamic Mechanical Analyzer (DMA) • Differential Scanning Calorimeter (DSC)/ HPDSC • Laser Flash Apparatus (LFA) • Simultaneous TG-DTA/DSC System (Coupled with QMS) • Thermogravimetric Analyzer (TGA coupled with FTIR) • Thermomechanical Analyzer (TMA) DIL 402 PC DMA

32. Thin Film XRD XRD / XRF • XRD System for Thin Films • XRD System for Bulk/Powder Samples • XRD Non-Ambient System • XRF System XRF Non-Ambient XRD

33. Raman Systems • Standard and fast characterization • Horiba LabRam ARAMIS • 4 Laser sources: 325, 473, 633 and 785nm • High resolution, broad wavelength, variable temperature sample holder, alive samples • Horiba LabRAM HR • Laser sources: 325 -1600 nm (325, 473, 633, 785, 1100 and 1600 nm), • Heating/Cooling stages • Helium Cryostats • Humidity Cells • Diamond anvil cells • Electrochemical Cells • Flow Cells LabRAM HR

34. I & C Facility Layout BIO PREP THERMAL ANALYSIS XRD/ XRF OPTICAL/ CONFOCAL MICROSCOPY IMAGE ANALYSIS MICROWAVE SEM & SEM PREP SURFACE ANALYSIS TEM TEM PREP (BIO & MAT) RAMAN

35. Partnering with IBM, KAUST is hosting one of the world’s top supercomputers in an academic environment. • Initially based on the 16-rack BlueGene/P system with 65,536 individual processor cores, Shaheen is capable of providing up to 222 teraflops. • We will reach petascale level, and strive towards exascale computing SUPERCOMPUTING

36. Anatomy of SHAHEEN 1 Rack 13.9 TF 4 TB 16 Rack 222 TF 64 TB 1 Node Card 435 GF 64 GB 1 Node 13.6 GF 4 GB 1 Chip 13.6 GF 222,000,000,000,000 floating point operations / second

38. KAUST Global Connectivity (10Gbps) SAREN 10Gbps SAREN SAUDI ARABIAN ADVANCED RESEARCH & EDUCATION NETWORK

39. KAUST Visualization Center VISUALIZATION CENTER

40. Visualization Laboratory • 24 of the world’s highest native resolution projectors (4096 x 2160 pixels each) • Fully immersive stereoscopic visual environment • 100 million pixels • Allows up to 8 viewers in the environment

41. Visualization Laboratory

42. VL6 Graphics Cluster • 272 quad-core CPUs • 768 gigabytes of RAM • 12 TB of internal hard drive capacity • A terabit local network • 96x10 Gb inter-processor connectivity • Plus10 gigabit uplinks • 96 FX5600 GPUs • 204 GB of graphics memory • 65 TB of external storage

43. Multi-Purpose Room • Ultra-high resolution (32 million pixel) digital cinema/VR system • Reconfigurable environment for multiple applications • Allows stereoscopic viewing for an audience of 75 • Enables collaborative environment and recording

44. Lab visits, advisors, consultants • University of California, Berkeley • National University of Singapore • Imperial College, London • University of Cambridge • HOK • Abbie Gregg Inc, FEI, Bruker . . . . . • Reviewed by partner institutions and prospective faculty • Cornell, Stanford, Oxford, HKUST . . . . . Design Process

45. Workshops • Machine Shop • Electronics Shop • CAD / CAM -- Rapid Prototyping • Woodworking • Glassblowing • Metrology

46. KAUST faculty, postdocs & students Partner institutions conducting research in collaboration with KAUST scientists & engineers Academic institutions & industry ACCESS PRIORITY

47. Assumptions : Linear depreciation over 5 years 250 working days per year Overhead @ 50% Cost : US$1200 per day per US$1M capital cost or US$150 per hour per US$1M capital cost Charge : Policy issue ! COSTING & CHARGING

48. THANKYOU