PCI Express® Transmitter Compliance/Debug Solution

DPO-MSO70000 Option PCE6, PCE5, PCE4, and PCE3 Datasheet

The PCI-SIG 6.0 specification has introduced PAM4 signaling to achieve 64 GT/s while maintaining NRZ signaling for backwards compatibility. The multilevel (PAM4) approach brings new signal integrity challenges to adopters and validation teams. Tektronix PCI Express 6.0 software minimizes this new complexity to automate testing and ensures measurement accuracy and repeatability.

The Tektronix Option PCE6 (Gen6), Option PCE5 (Gen5), Option PCE4 (Gen4), and PCE3 (Gen 1/2/3) applications provide the most comprehensive solution for PCI Express Transmitter and Reference Clock compliance testing as well as debug and validation of PCI Express devices against the PCI-SIG® specifications.

Features and benefits

Support for PCI Express Gen6 Base (silicon) transmitter testing
PCI Express Gen 1/2/3/4/5 validation and compliance of Transmitters at the BASE (silicon) and CEM (system) levels for the Tektronix DPO/MSO70000 Series oscilloscopes
Reference Clock jitter and signal integrity measurements for Gen1 to Gen5 using SkyWorks Clock Jitter Tool and DPOJET
64 GT/s (PAM4) signal integrity measurements using DPOJET/PAMJET
PCIe Gen6 Tx Equalization Preset test using AC Fit Method
Automation fully configures the oscilloscope including the vertical and horizonal scales for accurate and specification compliant measurements
Automated acquisition and waveform management to simplify testing across supported data rates, Tx compliance patterns, and lane widths
Automated DUT control to step through data rates and compliance patterns
RF switch automation of PCIe3 test solution, supporting up to x16 lanes
Support for NVMe and CXL physical layer testing
De-embedd the impact of a break-out channel, test fixtures, and cables to achieve measurements at the test point of interest (requires Option SDLA Serial Data Link Analysis)
Test selection: Select the specification against which to perform the analysis, and select individual tests or groups of tests to perform targeted compliance analysis for failing tests
SigTest integration: Uses SigTest EXE (using command line interface) to perform the analysis of acquired waveforms, providing the ability to test a system using the PCI-SIG®-recommended analysis tool
Analysis of multiple waveforms are done in parallel using multiple sigtest instances
AC Fit Tx EQ Preset characterization for Gen5 with SigTest Phoenix
Reporting: Compiles all test results into a customizable report with Pass/Fail results for easy analysis and record keeping
Summary table at the top of the report for quick glance of results for normative measurement
Pattern matching: Verifies that the correct set of compliance patterns are sent by the transmitter before acquiring signals for compliance analysis. This feature is supported up to Gen3 data rates
PHY level protocol decode: Decodes and displays the PCIe data in a protocol-aware view. A time-correlated event table view with waveforms allows for quickly searching through events of interest
Multi-lane testing: Perform analysis on multiple lanes of PCI express data to speed up the Tx analysis in a multi-lane system
Compliance and debug: Provides a toolkit of DPOJET-based setups to quickly switch into debug and validation mode when a DUT fails compliance
Analysis and debug tools: Tektronix provides a broad range of compliance, debug, and validation tools for Transmitter (Tx), Receiver (Rx), and protocol testing
Comprehensive programmatic interface: Enables automation of programs and scripts to call PCIe related TekExpress functions

Applications

Tektronix provides the most comprehensive solutions for validation and compliance of PCI Express transmitters at the Base (silicon) and system level including support for CEM, U.2, and M.2 interfaces. Numerous protocols utilizing the PCI Express physical layer including NVMe and CXL can take advantage of the transmitter and reference clock automation under TekExpress software solution.

The Tektronix Option PCE3 (Gen1/2/3), PCE4 (Gen4) and PCE5 (Gen5) includes compliance and debug testing and electrical validation for the following:

The Tektronix Option PCE3, PCE4 and PCE5 applications include a TekExpress™ compliance automation solution that integrates SigTest from the PCI-SIG as well as Tektronix DPOJET-based PCI Express Jitter and Eye Diagram analysis tools for debug purposes in a single software package.

The Tektronix Option PCE6 (Gen6) includes the following signal quality measurements:

The PCIe Gen6 has two pre-shoot and one de-emphasis value for each preset complicating the preset test algorithm. The Tektronix PCE6 also comes with Tektronix Preset test tool, which can be used either by TekExpress or manually.

TekExpress compliance automation is available now for PCIe Gen 1-3 CEM and Gen 3 Base via Option PCE3, Gen4 CEM and Gen4 Base via Option PCE4, and Gen5 CEM and Gen5 Base via Option PCE5.

The Tektronix Option PCE3, Option PCE4, and Option PCE5 applications are compatible with Tektronix DPO/MSO70000 series oscilloscopes that are designed to meet the challenges of the next generation of serial data standards such as PCI Express. These oscilloscopes provide industry competitive vertical noise performance with the flattest frequency response for oscilloscopes in their class. The Tektronix DPO/MSO70000 series of oscilloscopes have been approved by PCI-SIG for compliance testing.

Compliance testing

The PCI-SIG provides PCI Express compliance tests for testing PCI Express systems and add-in cards. For a PCI Express system or a device to be placed on the Integrators List, the system or device must pass interoperability and compliance testing. For electrical validation, the PCI-SIG uses SigTest Post Capture Analysis Software that uses acquisitions from an oscilloscope connected to the PCI-SIG's CBB (main board + riser) test fixture for add-in cards or CLB test fixture for systems to perform the analysis. Manually capturing the required waveforms and analyzing them is tedious, time consuming, and error prone.

The Tektronix Option PCE3, Option PCE4, and Option PCE5 TekExpress Automation for PCI Express Transmitter Compliance reduces the effort and accelerates the compliance testing for PCI Express systems and devices with several unique and innovative capabilities. These options ultimately allow the testing of devices that support various technologies, such as NVMe, which is supported as an add-in card device, or through a U.2 or M.2 connector.

The Tektronix Option PCE3, Option PCE4, and Option PCE5 TekExpress Automation software can control the DUT using selected models of a Tektronix AFG or AWG, GRL PCIE 3/4 Controller or NI USB6501 CBB controller to toggle DUT and automatically cycle it through various speeds, de-emphasis, and presets that are necessary for the compliance test. This eliminates the error-prone manual push button approach normally used for DUT control on the CBB and CLB test fixtures.

A complete test run requires multiple waveforms to be acquired at different DUT settings per lane. This waveform set will increase by the number of lanes that need to be analyzed. The ability to manage and store the required data for analysis and future reference is an important criterion for any compliance solution. The Option PCE3, Option PCE4 and Option PCE5 TekExpress automation software, apart from adjusting the horizontal and vertical settings as well as the acquisition depth for optimal signal quality for accurate analysis, provides easy analysis to manage multiple acquired waveforms.

This makes use of the PCI-SIG's SigTest EXE to analyze the acquired waveforms. Thus makes the results of the analysis consistent with the SigTest post-capture analysis software used at PCI-SIG workshops for compliance testing.

The Option PCE3, Option PCE4 and Option PCE5 TekExpress automation software provides flexibility in selecting data rates, voltage swing, presets, and the tests to run. It also provides the option to de-embed the effects of the channel and the test fixtures and provide an accurate representation of the signal at the pins as required by the specification.

TekExpress uses Tektronix next generation PAM4 tool PAMJET for the measurement. During analysis, TekExpress will automatically set up the tool as per the specification, capture results, and report them to the user. PAMJET also allows expert users to configure the PAMJET tool to test the DUT in non-specification settings for debugging purposes.

PAMJET introduces the Signal to Noise Distortion Ratio (SNDR) measurements with measurement methodology updated to support the latest PCI Express 6.0 Base Specification. Support for instrument noise compensation is integrated to improve measurement accuracy.

All the analysis results are compiled in a PDF/HTML/CSV formatted report that can include pass/fail summary, eye diagrams, setup configuration, and user comments. The contents of the report can be customized to include information of interest such as append results and custom report generation based on test name/pass fail/equalization.

Reference Clock Testing with TekExpress

Reference Clock testing has moved from optional to required for many designs due to the jitter limit decrease driven by the highest data rates supported by the PCI-SIG standards. Additionally, with the removal of dual-port (data and clock Tx testing) for Gen5 systems, compliance is required on the reference clock. The TekExpress PCIe solution has now integrated the SkyWorks Clock Jitter Tool to allow an automated hassle-free Reference Clock testing. Once the user connects the Reference Clock output to the oscilloscope, the TekExpress PCIe software will acquire the signal, invoke the SkyWorks Clock Jitter Tool, and provide Reference Clock test results from Gen1 to Gen5. Instrument noise compensations is supported with the Skyworks Clock Jitter Tool.

Switch Matrix automation

Switch Matrix application allows to configure and setup automated multi-lane testing using RF switch. The solution allows you to map each of the several transmitter signals and forward the selected input either to another relay or to the oscilloscope channel. Option SWX-PCE supports x12 and x16 lanes using Keithley and Gigatronics switches respectively, and enhances throughput and automated test speed.

Debug and validation

If a DUT or Add-In card fails any portion of the compliance test, the application includes a DPOJET-based debug and analysis tool kit customized for debug and validation of PCI Express interfaces.

The new jitter measurements introduced with PCIe Gen3 and Gen 4 provide separate limits for data dependent (DDJ) and uncorrelated deterministic jitter (UDJDD). It is important to separate DDJ (which can be compensated with transmitter and receiver equalization) and UDJDD (which can be caused by effects such as crosstalk and power supply noise).

Apart from the above Jitter measurements, Pulse Width Jitter (PWJ) is a new measurement that addresses the increased channel loss at 8 to 16 Gb/s. The purpose of the PWJ measurement is to ensure that lone bits meet minimum pulse width requirements. All new jitter measurements implement Q-scale extrapolation as defined in the base specification. The Tektronix Option PCE3, Option PCE4, and Option PCE5 provide the complete set of PCI Express 3.0, 4.0, and 5.0 Base Spec jitter measurements enabling silicon designers to verify that their silicon meets the base specification requirements.

Furthermore, the base specification requirements are defined at the pins of the transmitter. Before the measurements are computed the test channel must be de-embedded. De-embed filters can be easily created using the Tektronix Option SDLA64 Serial Data Link Analysis software and then quickly entered into the Option PCE3 and Option PCE4 base specification measurement setup and saved for future use. In addition to jitter, Option PCE3 and Option PCE4 also provide voltage, package loss, and transmitter equalization measurements.

Option PCE3 and Option PCE4 leverage the channel modeling and receiver equalization functionality of the Tektronix Option SDLA64 software to support CEM measurements. Unlike other solutions, Option PCE3 and Option PCE4 provide full visibility to the signal as it has been modified to embed the compliance channel and provide receiver equalization. Eye diagrams and measurements can be set up to visually see the results of channel embedding, CTLE application, and DFE. For example, when determining the optimal Rx Equalization settings (CTLE setting and DFE tap value) the resulting eye diagrams and measurements show the effects of post processing on the acquired signal. Compliance measurements can then be taken on the waveform.

PAMJET for GEN6 Base Measurements

Tektronix has created a next generation PAM4 tool named PAMJET, which is used for Gen6 Base measurement. This PAMJET tool can configure the measurement and can perform Bessel Thompson filtering, configure Gen6 clock recovery, configure CTLE, and report the results. These built-in functions are specifically designed to aid Gen6 Base testing.

DPOJET based Reference Clock measurements

The Tektronix DPOJET based RefClock measurements provide a reliable way to implement the Reference clock specifications described in the PCI Express Base Specification Rev 1.0 for Gen1, Gen2, Gen3, Gen4 and Gen5.

Comprehensive programmatic interface

You can use Standard Commands for Programmable Instruments (SCPI) to communicate with the TekExpress application. The Online Help document of TekExpress application describes the steps for TCPIP socket configuration and TekVISA configuration to execute the SCPI commands.

PCI Express Decoder for Gen 1 - 4 (Option SR-PCIe)

Decode and Display of PCIe data in a protocol-aware view with the characters and names that are familiar from the standard such as the ordered sets: SKP, Electrical Idle, and EIEOS. A time correlated event table view with waveform allows for quickly searching through events of interest simultaneously. All decoding features support PCIe generations 1 - 4. The PCIe trigger is easily configured through Bus Setup under the oscilloscope's Vertical menu with a variety of user-adjustable settings. The PCIe data stream is integrated with serial bus trigger and search for PCIe gen 1 and 2 allows for triggering on information of interest.

Comprehensive measurements for PCIe validation, debug, and precompliance

Tektronix Option PCE3, Option PCE4 and Option PCE5 provide measurements that span multiple test points and versions of the PCIe specification. All PCIe specifications, test points, and measurements supported are listed in the following sections.

Test method	Spec revision	PCI Express specification title	Test points defined
Rev 1.1	Rev 1.1	Base Specification	Transmitter and Receiver
	Rev 1.1	CEM Specification	System and Add-in Card Reference Clock
	Rev 1.0	Express Module Specification	Transmitter Path and System Board
	Rev 1.0	PCMCIA Express Card Standard	Host System Transmitter Express Card Transmitter
	Ver. 3.0 Rev 1.1	Mobile PCI Express Module (MXM) Electromechanical Specification	PCI Express
Rev 2.0	Rev 1.0	External Cabling Specification	Transmitter and Receiver Path
	Rev 2.0	Base Specification	Transmitter and Receiver Mobile Low-power Transmitter
	Rev 2.0	CEM Specification	System and Add-in Card (3.5 and 6 dB de-emphasis)
	Ver. 3.0 Rev 1.1	Mobile PCI Express Module (MXM) Electromechanical Specification	PCI Express
Rev 3.0	Rev 1.0	Base Specification	Transmitter
	Rev 1.0	CEM Specification	System and Add-in Card
	Rev 3.0	Test Specification	System and Add-in Card
Rev 4.0	Rev 1.0	CEM Specification	System and Add-in Card
Rev 5.0	Rev 1.0	Base Specification	Transmitter
Rev 5.0	Rev 0.5	CEM Specification	Transmitter
Rev 6.0	Rev 1.0	Base Specification	Transmitter

SignalConnect™ software and TCS70902 Calibration Source

Specifications

All specifications apply to all models unless noted otherwise.

Supported Reference clock measurements

Supported Reference clock measurements

Generation	Architecture	Measurements	Limits
PCIe 1.1	Common clock	T-CC- RCLK	Specified
	Common clock	T-WST-CC- RCLK	Specified
	Independent RefClock	IR2.5GBPS	Specified
PCIe 2.1	Common clock	T-RMSCC-RCLK-5GBPS	Specified
	Common clock	T-WST-RMSCC-RCLK-5GBPS	Specified
	Independent RefClock	IR5GBPS	Specified
PCIe 3.1	Common clock	T-RMSCC-RCLK	Specified
	Common clock	T-WST-RMSCC-RCLK	Specified
	Independent RefClock	IR8GBPS	Specified
PCIe 4.0	Common clock	PCIE4_T-RMSCC-REFCLK	Specified
	Common clock	PCIE4_T-WST-RMSCC-REFCLK	Specified
	Independent RefClock	IR16GBPS	Specified
PCIe 5.0	Common clock	PCIE5_T_RMSCC-REFCLK	Specified
	Common clock	PCIE5_T-WST-RMSCC-REFclk	Specified
	Independent RefClock	IR32GBPS	Specified

Supported AC reference clock measurements

AC reference clock specifications ¹

Generation	Specifications	Measurements	Symbol
Common across all generations	AC reference clock specifications	Cycle to Cycle jitter	CC_JITTER
		Differential Input High Voltage	V_IH
		Differential Input Low Voltage	V_IL
		Duty Cycle	Duty Cycle
		Absolute Max input voltage	V_max
		Absolute Min input voltage	V_min
		Absolute Period (including Jitter and Spread Spectrum modulation)	Period Abs
		Falling Edge Rate	Falling-Edge-Rate
		Rising Edge Rate	Rising-Edge-Rate
		Average Clock Period Accuracy	Avg Prd Accur
		Rising edge rate (REFCLK+) to falling edge rate (REFCLK-) matching	Rise fall Match
		Absolute crossing point voltage	VCROSS
		SSC SlewRate	SSC SlewRate

Supported base specification measurements

Supported PCI Express 4.0 Base Transmitter measurements

Parameter	DPOJET measurement	8.0 GT/s, Rev 3.0	16.0 GT/s, Rev 1.0
Full Swing Tx voltage with noTxEq	V-TX-FS-NO-EQ	Specified	Specified
Reduced Swing Tx voltage with noTxEq	V-TX-RS-NO-EQ	Specified	Specified
Min swing during EIEOS for full swing	V-TX-EIEOS-FS	Specified	Specified
Min swing during EIEOS for reduced swing	V-TX-EIEOS-RS	Specified	Specified
Pseudo package loss Root device	ps21TXRootdevice	Specified	Specified
Pseudo package loss AIC device	ps21TXAICdevice	Specified	Specified
Tx uncorrelated total Jitter	T-TX-UTJ	Specified	Specified
Tx uncorrelated deterministic jitter	T-TX-UDJDD	Specified	Specified
Data dependent jitter	T-TX-DDJ	Specified	Specified
Total uncorrelated PWJ	T-TX-UPW-TJ	Specified	Specified
Deterministic DjDD uncorrelated PWJ	T-TX-UPW-DJDD	Specified	Specified
Maximum Boost voltage ratio for full swing	V-TX-FS-BOOST	Specified	Specified
Maximum Boost voltage ratio for reduced swing	V-TX-RS-BOOST	Specified	Specified
Tx DC peak-peak common mode voltage	VTX_DC_CM	Specified	NA
Absolute Delta of DC Common Mode Voltage between D+ and D-	VTX_CM_DC_LINE_DELTA	Specified	NA
Electrical Idle Differential Peak Output Voltage	VTX_IDLE_DIFF_AC_p	Specified	NA
DC Electrical Idle Differential Output Voltage	VTX_IDLE_DIFF_DC	Specified	NA

Supported PCI Express 5.0 Base Transmitter measurements

Parameter	DPOJET measurement	32.0 GT/s, Rev 5.0
Tx uncorrelated total Jitter	T-TX-UTJ	6.25 ps (max)
Tx uncorrelated deterministic Jitter	T-TX-UDJDD	3.125 ps (max)
Data dependent Jitter	T-TX-DDJ	NA
Total uncorrelated PWJ	T-TX-UPW-TJ	6.25 ps (max)
Total Random Jitter (informative)	T-TX-RJ	0.23-0.45 ps rms
Deterministic DjDD uncorrelated PWJ	T-TX- UPW-DJDD	2.5 ps (max)
RMS RefClk jitter for common RefClk architecture	T-RMSCC-RCLK	0.25 ps (max)
IR RefClk jitter	IR32GBPS	NA
Pseudo Package Loss	ps21Tx	(max) 8.5dB
Boost ratio	VTX-BOOST	8.0 (min) dB
EIEOS	VTX-EIEOS	250 mV
TX Differential Peak to Peak	VTX-DIFF-PP	800 mV (max) 1300mV
Unit Interval	UI	31.246875 (min) 31.253125 (max)

Differential transmitter (Tx) output measurements

Parameter	Symbol(s)	2.5 GT/s Rev 1.1/2.0	5 GT/s Rev 2.0
Clock Recovery	NA	Specified	Specified
Unit Interval	UI	Specified	Specified
Differential Peak-to-Peak Tx Voltage Swing	V_TX-DIFF-P-P V_TX-SWING V_TX-EYE-FULL	Specified	Specified
Low-power Differential Peak-to-Peak Tx Voltage Swing	V_TX-SWING-LOW V_TX-EYE-HALF	Specified	Specified
De-emphasized Output Voltage Ratio	V_TX-DE-RATIO	Not Specified	Specified
Instantaneous Lane Pulse Width	T_MIN-PULSE	Not Specified	Specified
Transmitter Eye including All Jitter Sources	T_TX-EYE T_TX-EYE-TJ	Specified	Specified
Maximum Time between the Jitter Median and Maximum Deviation from the Median	T_{TX-EYEMEDIAN-to-MAXJITTER}	Specified	Specified
Deterministic Jitter	T_TX-DJ-DD	Not Specified	Specified
Tx RMS Jitter <1.5 MHz	T_TX-LF-RMS	Not Specified	Specified
D+/D– Tx Output Rise/Fall Time	T_TX-RISE T_TX-FALL	Specified	Specified
Tx Rise/Fall Mismatch	T_RF-MISMATCH	Not Specified	Specified
AC Peak-to-Peak Common Mode Output Voltage	V_TX-CM-AC-PP	Not Specified	Specified
AC Peak Common Mode Output Voltage	V_TX-CM-AC-P	Specified	Specified
Absolute Delta of DC Common Mode Voltage between D+ and D–	V_{TX-CM-DC-LINE-DELTA}	Specified	Specified

Supported CEM specification measurements

Add-in Card 8 GT/s transmitter path compliance measurements

Parameter	Symbol
Transition Eye Voltage	PCIe V-TXA
Nontransition Eye Voltage	PCIe V-TXA-d
Eye Width	PCIe T-TXA

Add-in Card transmitter path compliance measurements

Parameter	Symbol(s)	2.5 Gt/s Rev 1.1/2.0	5 GT/s Rev 2.0
Clock Recovery	NA	Specified	Specified
Unit Interval	UI	Specified	Specified
Eye Height of Transition Bits	V_TXA	Specified	Specified
Eye Height of Nontransition Bits	V_{TXA_d}	Specified	Specified
Eye Width with Sample Size of 10⁶ UI	T_TXA in Rev 1.1	Specified	Not Specified
Jitter Eye Opening at BER 10^–12	T_TXA in Rev 2.0	Specified	Specified
Maximum Median-Max Jitter Outlier with Sample Size of 10⁶ UI	J_{TXA-MEDIAN-to-MAX-JITTER}	Specified	Not Specified
Total Jitter at BER 10^–12	TJ at BER 10^–12	Not Specified	Specified
Deterministic Jitter at BER 10^–12	Max DJ	Not Specified	Specified

System board transmitter path measurements

Parameter	Symbol(s)	2.5 GT/s Rev 1.1/2.0	5 GT/s Rev 2.0
Clock Recovery	NA	Specified	Specified
Unit Interval	UI	Specified	Specified
Eye Height of Transition Bits	V_TXS	Specified	Specified
Eye Height of Nontransition Bits	V_{TXS_d}	Specified	Specified
Eye Width with Sample Size of 10⁶ UI	T_TXS in Rev 1.1	Specified	Not Specified
Jitter Eye Opening at BER 10^–12	T_TXS in Rev 2.0	Specified	Specified
Maximum Median-Max Jitter Outlier with Sample Size of 10⁶ UI	J_{TXA-MEDIAN-to-MAX-JITTER}	Specified	Not Specified
Total Jitter at BER 10^–12	TJ at BER 10^–12	Not Specified	Specified
Deterministic Jitter at BER 10^–12	Max DJ	Not Specified	Specified

Reference clock measurements

Parameter	Symbol	2.5 Gt/s Rev 1.1/2.0
Reference Clock Phase Jitter at BER 10^–6	NA	Specified

PCI ExpressModule™ measurements

ExpressModule Add-in Card transmitter path measurements

Parameter	Symbol	Rev 1.0
Clock Recovery	NA	Specified
Unit Interval	UI	Specified
Eye Height of Transition Bits	V_TXA	Specified
Eye Height of Nontransition Bits	V_{TXA_d}	Specified
Eye Width with Sample Size of 10⁶ UI	T_TXAin Rev 1.1	Specified
Jitter Eye Opening at BER 10^–12	NA	Specified
Maximum Median-Max Jitter Outlier with Sample Size of 10⁶ UI	J_{TXA-MEDIAN-to-MAX-JITTER}	Specified

ExpressModule system board transmitter path measurements

Parameter	Symbol	Gen1 Rev 1.0
Clock Recovery	NA	Specified
Unit Interval	UI	Specified
Eye Height of Transition Bits	V_TXS	Specified
Eye Height of Nontransition Bits	V_{TXS_d}	Specified
Eye Width with Sample Size of 10⁶ UI	T_TXS	Specified
Jitter Eye Opening at BER 10^–12	NA	Specified
Maximum Median-Max Jitter Outlier with Sample Size of 10⁶ UI	J_{TXA-MEDIAN-to-MAX-JITTER}	Specified

PCI Express external cabling measurements

External cabling transmitter path measurements

Parameter	Symbol	Rev 1.0
Clock Recovery	NA	Specified
Unit Interval	UI	Specified
Eye Height of Transition Bits	V_TXA	Specified
Eye Height of Nontransition Bits	V_{TXA_d}	Specified
Jitter Eye Opening at BER 10^–12	TrxA at BER 10^–12	Specified
Eye Width with Sample Size of 10⁶ UI	TrxA at 10⁶ Samples	Specified

PCMCIA ExpressCard™ measurements

ExpressCard - Module transmitter path measurements

Parameter	Symbol	Release 1.0
Clock Recovery	NA	Specified
Unit Interval	UI	Specified
Eye Height of Transition Bits	V_TXA	Specified
Eye Height of Nontransition Bits	V_{TXA_d}	Specified
Eye Width across any 250 UIs	T_TXA	Specified

ExpressCard-Host sys trans path

ExpressCard™ - Host system transmitter path measurements

Parameter	Symbol	Release 1.0
Clock Recovery	NA	Specified
Unit Interval	UI	Specified
Eye Height of Transition Bits	V_txS	Specified
Eye Height of Nontransition Bits	V_{txS_d}	Specified
Eye Width across any 250 UIs	T_TxS	Specified

MXM measurements

PCI Express measurements²

Parameter	Symbol	Release 1.1
Eye Height of Transition Bits	V_TXS	Specified
Eye Height of Nontransition Bits	V_{TXS_d}	Specified
Width at BER	T_TXS	Specified
Deterministic Jitter	DJ	Specified
Total Jitter	TJ	Specified

Ordering information

PCE3³: PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJet Measurements Software

New instrument orders: Option PCE3
Product upgrades: DPO-UP Option PCE3
Floating licenses: DPOFL-PCE3

PCE4⁴: PCI Express Gen4 TekExpress Compliance/Debug Automation with DPOJet Measurements Software; Requires PCE3 option to support PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJet Measurements Software; For CEM System/Host Test ⁵

New instrument orders: Option PCE4
Product upgrades: DPO-UP Option PCE4
Floating licenses: DPOFL-PCE4

PCE5: TekExpress PCIe Tx Compliance Solution, supports PCIe Gen5 (requires Opt. DJA)

New instrument orders: Option PCE5
Product upgrades: DPO-UP Option PCE5
Floating licenses: DPOFL-PCE5

PCE6: TekExpress PCIe Tx Compliance Solution, supports PCIe Gen6 (requires Opt. DJA and PAMPCIE6)

New instrument orders: Option PCE6
Product upgrades: DPO-UP Option PCE6
Floating licenses: DPOFL-PCE6

SWX-PCE⁶: Switch configurator for PCIe Gen 1/2/3 (please note the RF Switch will not support PCIe Gen4 Tx testing)

New instrument orders: Option SWX-PCE
Floating licenses: DPOFL-SWX-PCE

Recommended DPO/MSO70000 Series Oscilloscopes

2.5 Gb/s (PCI Express 1.0/1.1): DPO/MSO70000 Series (6 GHz or higher bandwidth models required for compliance testing)
5.0 Gb/s (PCI Express 2.0): DPO/MSO70000 Series (12.5 GHz or higher bandwidth models)
8.0 Gb/s (PCI Express 3.0): DPO/MSO70000 Series (12.5 GHz or higher bandwidth models)
16.0 Gb/s (PCI Express 4.0): DPO/MSO70000 Series (25 GHz or higher bandwidth models)
32.0 Gb/s (PCI Express 5.0): DPS77004SX Series (50 GHz or higher bandwidth models), DPO/MSO70000 Series (33 GHz or higher bandwidth models for Gen5 CEM testing)
64.0 Gb/s (PCI Express 6.0): DPS77004SX Series (50 GHz or higher bandwidth models)

Support for DPO/MSO70000 SX Series oscilloscopes

Supported DPO70000 Series configurations

Model	Description	Option PCE3	Option PCE4	Option PCE5	Option PCE6
DPO71604C	16 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
DPO72004C	20 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
DSA71604C	16 GHz DSA; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
DSA72004C	20 GHz DSA; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
MSO71604C	16 GHz MSO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
MSO72004C	20 GHz MSO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
DPO72504D	25 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓
DPO73304D	33 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓	✓
DSA72504D	25 GHz DSA; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓
DSA73304D	33 GHz DSA; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓	✓
DPO72304DX	23 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
DPO72504DX	25 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓
DPO73304DX	33 GHz DPO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓	✓
MSO72304DX	23 GHz MSO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓
MSO72504DX	23 GHz MSO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓
MSO73304DX	33 GHz MSO; 2 Ch, 100 GS/s or 4 Ch, 50 GS/s	✓	✓	✓
DPO77002SX	70 GHz ATI; 1 Ch, 70 GHz, 200 GS/s or 2 Ch, 33 GHz, 100 GS/s	✓	✓	✓
DPS77004SX	70 GHz ATI System; 2 Ch: 70 GHz: 200 GS/s or 4 Ch: 33 GHz: 100 GS/s	✓	✓	✓	✓
DPO75902SX	59 GHz ATI; 1 Ch, 59 GHz, 200 GS/s or 2 Ch, 33 GHz, 100 GS/s	✓	✓	✓
DPS75904SX	59 GHz ATI System; 2 Ch: 59 GHz: 200 GS/s or 4 Ch: 33 GHz: 100 GS/s	✓	✓	✓	✓
DPO75002SX	50 GHz ATI; 1 Ch, 50 GHz, 200 GS/s or 2 Ch, 33 GHz, 100 GS/s	✓	✓	✓
DPS75004SX	50 GHz ATI System; 2 Ch: 50 GHz: 200 GS/s or 4 Ch: 33 GHz: 100 GS/s	✓	✓	✓	✓
DPO73304SX	33 GHz DPO; 2 Ch, 33 GHz, 100 GS/s or 4 Ch, 23 GHz, 50 GS/s	✓	✓	✓
DPS73308SX	33 GHz DPO System; 4 Ch: 33 GHz: 100 GS/s or 4 Ch: 23 GHz: 50 GS/s	✓	✓	✓
DPO72304SX	23 GHz DPO; 4 Ch: 23 GHz: 50 GS/s or 2 Ch: 23 GHz: 100 GS/s	✓
DPO71604SX	16GHz DPO; 4 Ch: 16GHz: 50GS/s or 2 Ch: 16 GHz: 100 GS/s	✓
DPO71304SX	13GHz DPO; 4 Ch: 13GHz: 50GS/s or 2 Ch: 13 GHz: 100 GS/s	✓

Accessories

Recommended accessories

P75xx, P76xx, and P77xx Series (TriMode™ Differential Probes)

P7513, P7513A, P7516, P7520A, P7625, P7630, P7633, P7713, P7716, P7720 with respective tips

PCI Express
Speed	Minimum oscilloscope bandwidth	TCA-SMA (Max 18 GHz)	TCA-292D (Max 33 GHz)	P7500 (Max 20 GHz)	P7700 (Max 20 GHz)	P7600 (Max 33 GHz)
2.5 GT/s	6 GHz	✓	✓	✓	✓	✓
5.0 GT/s	12.5 GHz	✓	✓	✓	✓	✓
8.0 GT/s	12.5 GHz	✓	✓	✓	✓	✓
16.0 GT/s	25 GHz		✓			✓
32.0 GT/s BASE	50 GHz
32.0 GT/s CEM	33 GHz		✓			✓
100 MHz RefClk	5 GHz	✓	✓	✓	✓	✓
64.0 GT/s BASE	50 GHz

Option SDLA64

Serial Data Link Analysis Visualizer ⁷

Option SR-PCIe

Bus decode support for PCI Express serial busses ⁸

Option PAMPCIE6

Used for Gen6 Base

Recommended for automated DUT control

RF Switch

Keithley System S46T RF Microwave Switch for X12 PCIe

Gigatronics RF Switch 26 GHz (8902-L-48TS26) for x16 PCIe

Tektronix AFG3252

Arbitrary Function Generator

Tektronix AFG3252C

Arbitrary Function Generator

AWG5002B/C

Arbitrary Waveform Generator

AWG5012B/C

Arbitrary Waveform Generator

AWG5014B/C

Arbitrary Waveform Generator

AWG7082B/C

Arbitrary Waveform Generator

AWG7122B/C

Arbitrary Function Generator

AWG70001A

Arbitrary Waveform Generator

AWG70002A

Arbitrary Waveform Generator

AFG31252

Arbitrary Function Generator

AFG31251

Arbitrary Function Generator

AFG3252C

Arbitrary Function Generator

GRL PCIE34 Controller for automatic test pattern toggling and DUT power cycle (for Add-In-Card)

Part number : GRL-PCIE34-P1

Contact GRL at for support and to request for a quote.

Recommended test fixtures, cables, and tools

Description	Image
Description PCI Express 5.0 System Board (Tektronix NON-COMPLIANCE) Tektronix PN TF-PCIE5-CEM-X1 or TF-PCIE5-CEM-X16 Specifications X16 CEM connector (surface mount) with optimized layout Megtron 6 low loss material (~1 dB @ 16 GHz) Microstrip routing (no vias) MMPx (Huber Suhner) RF connectors for Tx and Rx connections Tx trace length of 3 in. Rx trace length of 4 in. 5.0 Base Specificaiton Reference Clock compliance chip Power connector (2x10) Opto-isolator switch for automation of Power, Reset, and Toggle Insertion loss characterization traces
Description PCI Express 5.0 Add-in Card Board (Tektronix NON-COMPLIANCE) Tektronix PN TF-PCIE5-CEM-X1 or TF-PCIE5-CEM-X16 Specifications x1/x16 Edge Finger and x4/x8 Edge Finger variants with optimized layout TF-PCIE5-CEM-X1 comes with X1 and X16 CLB and TF-PCIE5-CEM-X16 comes with X1, X4, X8 and X16 CLB. Sideband signal RC terminations Megtron 6 Low Loss Material (~1 dB @ 16 GHz) Microstrip routing (no vias) MMPx (Huber Suhner) RF oncnectors for Tx and Rx connections Tx trace length of 3 in. Rx trace length of 4 in. 5.0 Base Specificaiton Reference Clock compliance chip Compliance toggle circuit (switch between Tx compliance patterns) Opto-isolator switch for automation of Power, Reset, and Toggle Insertion loss characterization traces
Description PCI Express 5.0 Variable ISI Board (Tektronix NON-COMPLIANCE) Tektronix PN TF-PCIE5-CEM-X1 or TF-PCIE5-CEM-X16 Specifications 36 variable length differential pairs (0.5 dB @ 16 GHz step size) Megtron 6 Low Loss Material (~1 dB @ 16 GHz) Microstrip routing (no vias) MMPx (Huber Suhner) RF connectors for Tx and Rx connections
Description: [PCI-SIG] PCIe 4.0 Preliminary CEM Fixture Kit PN: PCIe-CLB-X1X16, PCIe-CLB-X4X8, PCIe-CBB-MAIN, and PCIe-VAR-ISI The PCIe 4.0 CEM Beta fixtures require a VNA based characterization to determine the appropriate Insertion Loss for performing the 16 GT/s Tx Signal Quality Test and the 16 GT/s Rx Link Equalization Test. This characterization will not be performed by the PCI-SIG, but must be performed by the end user after the fixtures are delivered. Quantity: 1
Description: PCI Express Compliance Base Board (CBB) test fixture, revision 3.0. For testing PCI Express add-in cards, x1/x4/x8/x16 PCIe connectors on PCIe devices/add-in cards. Vendor: PCI-SIG https://www.pcisig.com/specifications/order_form Vendor PN: CBB3 Tektronix PN: Only available from PCI-SIG Quantity: 1
Description: PCI Express Compliance Load Board (CLB3) test fixture, revision 3.0. For testing PCI Express Platforms, x1 and x16 PCIe connectors on PCIe systems/mother boards. Vendor: PCI-SIG https://www.pcisig.com/specifications/order_form Vendor PN: x1/x16 CLB3 Tektronix PN: Only available from PCI-SIG Quantity: 1
Description: PCI Express Compliance Load Board (CLB3), Revision 3.0. For testing PCI Express Platforms, x4 and x8 PCIe connectors on PCIe systems/mother boards. Vendor: PCI-SIG https://www.pcisig.com/specifications/order_form Vendor PN: x4/x8 CLB3 Tektronix PN: Only available from PCI-SIG Quantity: 1
Description: PCI Express Compliance Load Board (U.2 CLB3) test fixture, revision 3.0. For testing PCI Express Platforms, x1 and x4 PCIe connectors on PCIe devices/add-in cards. Vendor: PCI-SIG https://www.pcisig.com/specifications/order_form Vendor PN: U.2 CLB3 Tektronix PN: Only available from PCI-SIG Quantity: 1 Note: U.2 was formally known as SFF-8639.
Description: PCI Express Compliance Load Board (U.2 CLB3), Revision 3.0. For testing PCI Express Platforms, x1 and x4 PCIe connectors on PCIe systems/mother boards. Vendor: PCI-SIG https://www.pcisig.com/specifications/order_form Vendor PN: U.2 CLB3 Tektronix PN: Only available from PCI-SIG Quantity: 1 Note: U.2 was formally known as SFF-8639.
Description: Any ATX PC power supply Vendor: Tektronix recommends "PC Power and Cooling 750 W Silencer MK III Series" or similar. Quantity: 1
Description: SMP terminator, 50 Ω, limited detent. Vendor: Fairview Microwave http://www.fairviewmicrowave.com/rf-load-0.25-watts-26.5-ghz-smp-female-st2645-p.aspx Vendor PN: ST2645 Tektronix PN: 131-9399-xx Quantity needed per PCIe DUT link width: x1: 0 x4: 6 x8: 14 x16: 30
Description: SMA Female to BNC Male adapter. Vendor: Tektronix Tektronix PN: 015-0572-xx www.tek.com Quantity: 2
Description: DC Block, SMA, 26`GHz Vendor: Tektronix www.tek.com Tektronix PN: PSPL5500A, PSPL5501A, or PSPL5508 Quantity: 2 Note: This is an optional accessory and not shown in any of connection diagrams, but can be used if DC offset is encountered in any signal path.
Description: USB2.0 Cable, Type A Male to Type B Male, 6 foot Vendor: Tektronix Tektronix PN: 174-6053-xx www.tek.com Quantity: 1
Description: SMA-to-SMA, H+S SF104E Phase Kit (#84077556), Straight, 1`m, 1.5 ps phase-matched. Vendor: Tektronix www.tek.com Tektronix PN: PMCABLE1M Quantity: 1 cable pair per lane
Description: SMA-to-SMP right-angle cable pair, 102 mm, 1 ps phase-matched. Tektronix PN: 174-6657-xx Quantity: 1 cable pair Note: Applicable only for Gen3
Description: SMA-to-SMP right-angle cable pair, 1 m, 1 ps phase-matched (one for AFG to Rx Lane0, one for 100 MHz RefClk for Ch3+4 for System Testing) Tektronix PN: 174-6659-xx Quantity: 1 cable pair
Description: SMP to SMP right-angle cable pair, 305 mm, 2.5 ps phase-matched set. Tektronix PN: 174-6658-xx Quantity: 1 cable pair
Description Cables Tektronix PN TF-PCIE5-CEM-X1 or TF-PCIE5-CEM-X16 Specifications Huber Suhner 24” MMPX PLUG to MMPX PLUG cable PN 174-7327-00 QTY = 4 Huber Suhner 4” MMPX – 2.92 Cable 32024E-29430CR-29092KCR-24PM +/-1 PS-STD PN 174-7326-00 QTY = 4
Description: SMA torque wrench, 8.0 in-lbs. Vendor: Fairview Microwave http://www.fairviewmicrowave.com/sma-fixed-torque-wrench-click-st-sma3-p.aspx Vendor PN: ST-SMA3 Tektronix PN: 003-1940-xx Quantity: 1
Description: SMP right-angle cable extraction tool. Vendor: Fairview Microwave http://www.fairviewmicrowave.com/undefined-mmtl2682-p.aspx Vendor PN: MMTL2682 Tektronix PN: 003-1941-xx Quantity: 1
Description: SMP terminator installation/extraction tool. Vendor: Fairview Microwave http://www.fairviewmicrowave.com/undefined-mmtl4991-p.aspx Vendor PN: MMTL4991 Tektronix PN: 003-1939-xx Quantity: 1

Additional information

PCI Express receiver testing

Tektronix also offers a complete PCI Express receiver testing solution for Gen5 and Gen4 that includes stressed pattern generation as required by PCI-SIG test specifications and support for automated calibration and receiver tests. Automated DUT loopback control simplifies the testing process and reduces the time to test results.

Salient features of the Receiver automation software with Tektronix DPO70000SX Series Real-Time Scopes and Anritsu MP1900A BERT are as follows:

Wizard-based user interface for each step of calibration and test
Efficient and quick calibration
Insertion Loss computation powered by Seasim Statistical Simulation Tool
Tx Link Equalization/Rx Link Equalization
Jitter Tolerance
Latest industry tool support (SigTest and Seasim)
Comprehensive Calibration and test reports
Automation for PCI Express PLL Bandwidth and Peaking tests (including SJ calibration) for Gen 3/4/5

¹ PCIe TekExpress runs AC Reference Clock measurement using SkyWorks Clock Jitter tool and additionally report

Ring Back Voltage
Overshoot Voltage relative to V(IH)
Undershoot Voltage relative to V(IL)

² All de-emphasis levels supported

³ Requires Option DJA (DPOJET Jitter and Eye Diagram Analysis) and Option SDLA64 (serial Data Link Analysis Visualizer) highly recommended. Option DJA is standard on MSO70000 Series oscilloscopes, and can be ordered for DPO70000 Series oscilloscopes.

⁴ Require option PCE3. For Debug solution DJA and SDLA64 is required. If user need only Automated TekExpress solution then DJA and SDLA64 is optional

⁵ CEM System/Host Test Configuration

1 x MSO/DPO72504DX or DPO73304SX Oscilloscope with P76xx probe or DPS73308SX, min BW = 25GHz
2 x P7625 or P7633 probe required for MSO/DPO72504DX or DPO73304SX
2 x P76CA-292 probe tip required for MSO/DPO72504DX or DPO73304SX

⁶ Requires Option PCE3

⁷ SDLA is not required for TekExpress automation solutions. It is mandatory for DPOJET PCIE.

⁸ This is required to perform pattern decoding using TekExpress which gives Preset number and Lane number information (Only for Gen3, currently Gen4 is not supported).


	Tektronix is registered to ISO 9001 and ISO 14001 by SRI Quality System Registrar.

61W-24540-25

PCI Express® Transmitter Compliance/Debug Solution

DPO-MSO70000 Option PCE6, PCE5, PCE4, and PCE3 Datasheet

詳細情報

Features and benefits

Applications

Compliance testing

Reference Clock Testing with TekExpress

Switch Matrix automation

Debug and validation

PAMJET for GEN6 Base Measurements

DPOJET based Reference Clock measurements

Comprehensive programmatic interface

PCI Express Decoder for Gen 1 - 4 (Option SR-PCIe)

Comprehensive measurements for PCIe validation, debug, and precompliance

SignalConnect™ software and TCS70902 Calibration Source

Specifications

Supported Reference clock measurements

Supported AC reference clock measurements

Supported base specification measurements

Supported CEM specification measurements

PCI ExpressModule™ measurements

PCI Express external cabling measurements

PCMCIA ExpressCard™ measurements

ExpressCard-Host sys trans path

MXM measurements

Ordering information

Recommended DPO/MSO70000 Series Oscilloscopes

Accessories

Recommended accessories

Recommended for automated DUT control

Recommended test fixtures, cables, and tools

Additional information

PCI Express receiver testing