All Software Catalog

• Complete test suites for HDMI: HDMI1.4, HDMI2.1 TMDS (previously HDMI2.0), HDMI 2.1 Fixed Rate Link, HDMI 2.2 Fixed Rate Link, Direct-Attach devices.
• Supports waveform storage for post-processing on scope or offline on a PC.
• Device capability entry using resolution and timing descriptors, video identifier codes (VIC) as well as FRL features
• Automated test sequencing for given test connection
• Full device automation using optional switch network
• Guided connection and instructions throughout the test process
• Test report including system, connection details, summary table, with hotlinks to ancillary test result data, and screen shots of the test measurements
• Tabular final results page with statistical analysis

The D9021HDMC electrical performance validation and compliance software for HDMI transmitter supporting Infiniium V, Z and UXR-Series oscilloscopes gives you a fast and easy way to verify and debug your High Definition Multi-media Interface (HDMI) designs for set-top boxes, Digital Video Recorders, DVD players, and motherboard systems. The HDMI compliance test software lets you automatically execute HDMI electrical checklist tests and displays the results in a comprehensive report format. In addition to the measurement data, the report provides a margin analysis that shows how closely your device passed or failed each test.

This software supports post processing of waveforms to greatly improve productivity. Post processing can be done on the oscilloscope after waveforms have been acquired or on a PC with a licensed compliance application using Infiniium Offline D9010BSEO. Other required components for solution are: a test point adapter with HDMI plug (TPA-P), probe amplifiers and probe heads, high quality matched cables, and an EDID and SCDC controller device.

HDMI2.1 TMDS (formally HDMI2.0) HDMI2.1 FRL and HDMI2.2 FRL require single-ended connections for single-ended measurements as well as for TP2 differential measurements. Keysight probe and switching offerings include N7010A active termination adapters for the lowest cost connection or N7003A Infiniimode amplifiers with internal switches to enable one connection full FRL testing. Full automation for complete testing of all HDMI versions for a device is possible with switch matrix solution which requires a mainframe and switch modules. To learn more about Keysight’s automated switching solution, visit www.keysight.com/find/switching.

• PCI Express TX analysis of PCIe 5.0 Signals at speeds up to 32 GT/s
• Uncorrelated Jitter, Preset Testing, Uncorrelated PWJ and more
• Configurable pass/fail margin reporting
• HTML Summary Report

Use the PCIe 5.0 Tx compliance software to test, debug and characterize your PCIe Gen5 designs quickly and easily. It automatically configures the oscilloscope for each test and generates an informative HTML report upon test completion. The application compares the results with the specification test limit and includes margin analysis which indicates how closely the device passes or fails each test. With the option InfiniiSim Waveform Transformation Toolset, the software supports integrated de-embedding of the breakout channel of the test fixture.

Jitter Analysis Provides

• Automatic setup wizard for creating jitter histograms, trends, and spectrums
• Automatic setup wizard for RJ/DJ separation via multiple algorithms, pattern lengths, BER levels
• Multiple clock recovery methods
• Calibration to remove RJ from oscilloscope
• Composite histograms and graphs of separated RJ, PJ, DJ, DDJ, DCD and ISI jitter subcomponents
• Composite histograms and graphs of separated TI, DDI, PI, ISI noise subcomponents
• Spectral and noise BER bathtubs

Phase Noise Analysis Provides

• Plotting Single Side Band (SSB) phase noise as log frequency vs dBc/Hz
• Using 2 channels and cross-correlation to reduce broadband measurement noise.
• Measure phase noise of differential clocks with reduced broadband measurement noise.
• Measure phase noise of spread-spectrum modulated clocks.
• Reduce broadband noise (RJ) in cross-correlated time interval error (TIE) measurements.
• Measure integrated jitter between two frequencies on phase noise plot.
• Measure phase noise in circuit with InfiniiMax probes.

With faster edge speeds and shrinking data valid windows in today's high-speed digital designs, insight into the causes of jitter has become critical for success. This jitter analysis software, combined with Keysight's Infiniium 90000, V-, Z- or UXR-Series oscilloscopes, is a key tool for identifying and quantifying jitter components that affect the reliability of your design. Time correlation of jitter to the real-time signal makes it easy to trace jitter components to their sources. Additional compliance views and a measurement setup wizard now simplify and automate RJ/DJ separation for testing against industry standards.

This software automatically detects embedded clock frequencies and repetitive patterns of the data on the oscilloscope inputs and calculates the level of data-dependent jitter (DDJ) that is contributed to the total jitter (TJ) PDF by each transition in the pattern. It also comes with both spectral and tail-fit jitter separation algorithm.

Every waveform is different. As a result, having the flexibility of multiple jitter separation solutions means better answers for each individual waveform. Use the new tail-fit algorithm to properly identify and measure aperiodic bounded uncorrelated jitter, which is especially useful if the waveform is being influenced by cross-talk.

The phase noise analysis feature measures phase noise in a clock source. Phase noise measurement results are presented in a log frequency plot where the amplitude units are dBc/Hz (decibels relative to the carrier power normalized to a 1 Hz bandwidth). Phase noise is one of the most important figures of merit of a signal generating device and can be a limiting factor in a mission-critical application within aerospace and defense, as well as in communications.

Today's high-speed digital designs require insight into the causes of jitter. Phase noise, one of the most important figures of merit of a signal generating device, can be a limiting factor in mission-critical applications like aerospace and defense communications.

This software helps you perform jitter, vertical, and phase noise analysis with Keysight's Infiniium 9000, S-Series, EXR-Series, MXR-Series oscilloscopes.

Time correlation of jitter to the real-time signal helps you easily trace jitter components to their sources. Additional compliance views and a measurement setup wizard now simplify and automate RJ/DJ separation for testing against industry standards.

This software automatically detects embedded clock frequencies and repetitive patterns of the data on the oscilloscope inputs and calculates the level of data-dependent jitter (DDJ) that is contributed to the total jitter (TJ) PDF by each transition in the pattern. It also comes with both spectral and tail-fit jitter separation algorithm. Since every waveform is different, multiple jitter separation solutions give you better answers for each individual waveform. Use the new tail-fit algorithm to properly identify and measure aperiodic bounded uncorrelated jitter, which is especially useful if the waveform is being influenced by cross-talk.

The Phase Noise analysis feature measures phase noise in a clock source. Get measurement results presented in a log frequency plot where the amplitude units are listed in units of dBc/Hz (decibels relative to the carrier power normalized to a 1 Hz bandwidth).

Jitter Analysis Provides

• Automatic setup wizard for creating jitter histograms, trends, and spectrums
• Automatic setup wizard for RJ/DJ separation via multiple algorithms, pattern lengths, BER levels
• Multiple clock recovery methods
• Calibration to remove RJ from oscilloscope
• Composite histograms and graphs of separated RJ, PJ, DJ, DDJ, DCD and ISI jitter subcomponents
• Composite histograms and graphs of separated TI, DDI, PI, ISI noise subcomponents
• Spectral and noise BER bathtubs

Phase Noise Analysis Provides

• Single Side Band (SSB) phase noise plots as log frequency vs. dBc/Hz
• Two channels and cross-correlation to reduce broadband measurement noise
• Differential clocks with reduced broadband measurement noise
• Spread-spectrum modulated clocks
• Broadband noise (RJ) reduction in cross-correlated time interval error (TIE) measurements
• Integrated jitter measurements between two frequencies on phase noise plot
• In circuit with InfiniiMax probes

• The fastest throughput oscilloscope solution for triggering on and analyzing automotive serial buses using hardware-based architecture
• On-screen serial decode time-correlated with the serial data waveform
• CAN eye-diagram mask testing - easily download multi-region masks and setups based on industry standards
• Detailed pass / fail statistics from mask tests
• This package enables CAN, CAN FD, LIN, FlexRay, SENT, PSI5 (user-definable Manchester), user-definable NRZ, and CXPI serial trigger and decode, along with mask testing and frequency response analysis (Bode plot). Advanced math already comes standard on all 6000 X-Series oscilloscopes
• CAN and CAN FD symbolic trigger and decode with .dbc file
• LIN symbolic trigger and decode with .ldf file

The automotive software package for Keysight’s InfiniiVision 6000 X-Series oscilloscopes enables protocol triggering and decode for a broad range of the most common automotive serial buses used today for power train and body control and monitoring. This package also enables other advanced analysis capabilities including eye-diagram mask testing and frequency response analysis to help test and debug automotive electronic systems.

• Compliance testing of clock jitter, electrical and timing measurements in accordance to JEDEC specifications
• Comprehensive analysis that automates the complex measurements, even when you are not there
• JEDEC test measurement with navigation capability for DDR Debug
• Statistical analysis on read and write data for margin testing
• Data analytics capabilities which include data import into data repository server and aggregate test results viewing

Use the DDR4 and LPDDR4 application to test, debug and characterize your DDR4 and LPDDR4 designs quickly and easily. It automatically configures the oscilloscope for each test and generates an informative HTML report at the end of the test. The application not only compare the results with the specification test limit but also includes margin analysis which indicates how closely the device passes or fails each test. In addition, the complex analysis of the DDR4 and LPDDR4 signals is taken cared by the application which saves user time and effort if the measurements are done manually.

• Removes channel effects such as lossy cables or test fixtures; commonly referred to as ‘de-embedding’
• View waveforms anywhere in a modeled system
• Inserts channel effects such as a standard cable model
• Replace one or more channel element with another
• Characterizes and corrects for S21 insertion loss of cables, fixtures, and switches without the need of additional equipment such as a VNA or TDR
• Measures and corrects probing frequency response for all probes connected to Infiniium oscilloscopes
• Ensures every probe has the same frequency response and phase for consistent measurements across multiple probes
• Share PrecisionProbe created characterization files (s2p or tf2) across multiple scopes and channels

PrecisionProbe and InfiniiSim Basic provides two ways to de-embed the effect of cables and fixtures from measurements. This new package gives you both capabilities.

Compatible with all Infiniium oscilloscopes with firmware 6.30 or greater.

• Get your USB testing of any speed done faster with this all-in-one USB trigger and decode package
• Set up your scope to show USB4, USB 3.x, USB 2.0 and eUSB2 in less than 30 seconds with an auto setup feature
• USB4 will be added to this package moving forward (with an active support subscription)
• Get access to a rich set of integrated protocol-level triggers and searches – see datasheet for a complete list
• Save time and eliminate errors by viewing packets at the protocol level
• Use time-correlated views to quickly troubleshoot serial protocol problems back to their timing or signal integrity root cause

This application includes a suite of configurable protocol-level searches and software-based triggering specific to all USB standards. It is compatible with EXR-Series, MXR-Series, UXR-Series, S-Series, V-Series, and Z-Series Infiniium oscilloscopes. USB4 and USB 3.2 trigger and decode are not available for the EXR-Series, MXR-Series or S-Series oscilloscopes.USB4 and USB 3.2 trigger and decode are not available for the S-Series oscilloscopes. For detailed information on the decode and trigger settings, please refer to the datasheet. For assistance with using the applications, refer to the Infiniium help guide.

• Set up your scope to show CAN, CAN FD, CAN XL, LIN, FlexRay, and SENT protocol decode in less than 30 seconds
• Support CAN XL protocol trigger and decode of the SIC mode (or slow mode) signal in the arbitration phase as well as the FAST mode signal in the data phase
  
• Get access to a rich set of integrated software-based protocol-level triggers
• Save time and eliminate errors by viewing packets at the protocol level
• Use time-correlated views to quickly troubleshoot serial protocol problems back to their timing or signal integrity root cause

This application (for Infiniium Oscilloscopes) includes a suite of configurable protocol-level trigger conditions specific to CAN, CAN FD, CAN XL, LIN, FlexRay, and SENT. When serial triggering is selected, the application enables software-based triggering. Application supports CAN-dbc symbolic debug.

• NOW able to decode 10BASE-T1S protocols.
• Set up your scope to show Automotive Ethernet protocol decode in less than 30 seconds.
• Get access to a rich set of integrated protocol-level triggers.
• Save time and eliminate errors by viewing packets at the protocol level.
• Use time-correlated views to quickly troubleshoot protocol problems back to their timing or signal integrity root cause.

This application includes a suite of configurable protocol-level trigger conditions specific to Automotive Ethernet OABR and IEEE standards. The multi-tab protocol viewer includes a correlation between the waveforms and the selected packet, enabling you to quickly move between the physical and protocol layer information using the time-correlated tracking marker.

NOTE: The 100 and 1000BASE-T1 protocol generates a full duplex connection using a differential pair of wires for data transmission. If your wire pair signal is transmitting in opposite directions at the same time, it cannot be decoded. To separate the signals, you can use the Automotive Ethernet fixture available for purchase as part of AE6000T or standalone as AE6941A.

PCI Express® 6.0 Protocol Decode Software

• Support PCIe Gen 6 decode up to 64 GT/s
• Support PCIe Gen 1-5 up to 32 GT/s
• Support for Flit Mode (TLP, DLLP), Training Sequences and Ordered Sets at 64 GT/s
• Support Compliance Patterns at 64 GT/s
• Support FEC error detection and correction at 64 GT/s
• Support PAM4 signaling, Grey coding, Precoding and Descrambling
• Compatible with Keysight UXR-Series, Infiniium oscilloscopes and supports protocol decode for the PCI Express 6.0  standards at PCIe supported speeds of up to 64GT/s

PCI Express® 4.0 Protocol Decode Software

• 128/130 bit decoding of PCI Express 4.0 waveforms at 16GT/s
• Supports decoding of PCIe 3.x, 2.x, 1.1x and 1.0 at 8GT/s, 5GT/s, and 2.5GT/s respectively
• Automatic or manual decode setup for your signal
• Waveform to Packet level decode of serial data for greater insight
• Compatible with Keysight Z-Series, V-Series, Q-Series, X-Series, UXR-Series, and 90000A Series Infiniium oscilloscopes and supports protocol decode for the PCI Express 1.0, 1.1, 2.x, 3.x, and 4.0 standards at PCIe supported speeds of up to 16GT/s
  

This PCI Express Protocol software provides an industry-leading method to view and correlate analog and digital domains for greater insight when analyzing PCI Express serial data streams. It goes beyond basic symbol and character decode and provides time-correlated views of waveform, symbol, character, link, and transaction layer packet data down to the bit level. This makes it easy for you to isolate communication faults to logic or analog sources as the root cause.

SATA Protocol Analysis and Decode

• Setup wizard for quick setup, configuration, and analysis
• Serial data analysis with 8B/10B symbols
• Packet-level decode of primitives as well as link and transaction layers
• Numerical decode values of the traffic are automatically displayed and synchronized

With the need for faster access, higher performance, and improved power-saving storage capabilities, the new SATA 6 Gb/s and 3Gb/s standard have been a popular choice for many new emerging designs and solid-state drives. Besides that, many electronic products that include fast-access storage capabilities that have cost constraints or legacy requirements also make SATA 1.5 Gb/s a preferable choice. Users can quickly see SATA 1.5, 3.0, and 6.0 Gb/s information at both the physical and protocol layers in devices that include fast-access storage capabilities. They can trigger on and view both protocol layer information and physical layer signal characteristics for SATA. Numerical decode values of the SATA traffic are automatically displayed and synchronized below the capture signal or seen in protocol viewer. Generally, the 9000 and S-Series oscilloscopes are ideal for SATA 1.5 Gb/s.