A Technical Approach to Streaming High Density PDV Data with PXI Express 1 HEI Incorporated 2 NaLonal Instruments 3 NSTec Los Alamos OperaLons Manny Teran 1 David Bonal 2 Rebecca Suemnicht 2 Cenobio Gallegos 3 MaIhew G. Teel 3 Ed McConnell 2 Approved for public release. Distribution unlimited.
PDV Needs and Challenges Cost DigiLzer costs are prohibilve for high channel count applicalons Density ApplicaLons are demanding greater than 10 channels Data Analysis Data analysis Lme reduclon needed to provide very fast measurement results SoSware SoSware needs refinement, standardizalon, and ease of use
NI and HEI Addressing Needs and Cost Challenges NI is increasing the value of instrumentalon by developing digilzer sampling rates greater than 10 GS/s Density NI technology reduces footprint and power consumplon Data Analysis Leveraging FPGA technology for inline data processing SoSware HEI is enabling exislng PDV users to focus on their applicalon and expose PDV to a broader audience
PXI (PCI extensions for InstrumentaLon) Controller Embedded PC or remote PC / laptop interface Runs all standard sosware Chassis Rugged, 3U compactpci PXI Backplane High throughput PCI and PCI Express buses (>3 GB/s system data throughput) Timing and SynchronizaLon Cost Modules MoLon control, waveform digilzing, analog and digital I/O, etc
PXI PXI Express Star Trigger 100 MHz Differential CLK SYNC100 10 MHz CLK PXI Express System Controller PXI Express System Timing Slot SYNC Control PXI Express Hybrid Peripheral PXI Express Hybrid Peripheral PXI Express Hybrid Peripheral PXI Peripheral Differential Star Triggers PXI Trigger Bus (8 TTL Triggers) Cost
PXIe Streaming Technology Front-Side Bus CPU North Bridge Memory Bus Controller Chassis RAID South Bridge ATA PCIe Switch PCI Express Links Architecture #1 #2 PCIe Switch Cost
Frequency Vs. Resolution Curve 28 Resolution (Bits) 26 24 22 20 18 16 14 12 10 8 6 Existing NI Platform Future NI Platform 1 10 100 1K 10K 100K 1M 10M 100M 1G 10G Frequency (Hz) Cost
Tektronix Oscilloscope Technology in PXI > 3 GHz, > 10 GS/s modular digitizer Tektronix Custom ADC ASIC Cost 20 GHz, 50 GS/s oscilloscope
PXI 17 Channel PDV Data Acquisition System NI 5154 17 Channel Acquisition Speeds = 2 GS/s NI 5154 34 Channel Acquisition Speeds = 1 GS/s Density
Density Modular PDV Acquisition System
PXI Platform = Power Efficient Measurements < 217 W/Channel < 55 W/Channel Density
High Level Design Tools Configura9on Textual Math Simula9on Statechart LabVIEW Graphical Programming Linux Macintosh Windows Real Time FPGA MPU Desktop PlaEorm Embedded PlaEorm Data Analysis National Instruments Confidential 12
Next Generation Software Defined Functionality What if you could Perform measurements or custom processing, and make decisions or control time critical operations on the instrument Data Analysis
Case Study: In-line Processing with FPGAs Oak Ridge National Labs : Spallation Neutron Source FPGA is used for inline filtering, calculations, quality control Inline processing facilitates real-time beam monitoring and reduces the amount of data that is sent to the host PC for post-processing Data Analysis
SoSware HEI Direction: LabVIEW Refinement Access to high level tools More efficient software Test/Measurement/Analysis ready Standardization Large software community Works with other tools (Matlab) Enables collaboration Ease of use Access to external support Focus on the experiment
SoSware HEI Direction: LabVIEW
5154 PDV Data (300 M/s Flyer) Acquired at 2 GS/s 1 GHz Acquired at 50 GS/s 20 GHz
6.25 GS/s PDV Data (300 M/s Flyer) Acquired at 2 GS/s 1 Ghz Acquired at 6.25 GS/s 20 Ghz
12.5 GS/s PDV Data (300 M/s Flyer) Acquired at 2 GS/s 1 GHz Acquired at 12.5 GS/s 20 GHz
Conclusions PXI pla]orm offers a beier instrumentalon value PXI pla]orm offers a high channel count data acquisilon solulon LabVIEW FPGA performs inline data analysis HEI solves sosware challenges by collaboralng with verlcal experts