IC4	PCI Express 3.0

This course covers PCI Express gen3 as well as gen1 and gen2

Objectives Packet switching benefits compared to shared busses are highlighted. The course explains the various traffic types that PCI Express supports. The use of virtual channels to match Quality of Service requirements is explained. The course describes the discovery sequence required to initialize the switches. The course details the various stages of the physical layer: 8b10b coding, scrambling, elastic buffer, clock recovery and link training sequence. The new features of the revision 2.0 and revision 3.0 are described, especially the sequence used to change either the speed or the link width. The course explains the new coding scheme used in PCIe 3.0. Event report to the host CPU through legacy interrupts, MSI or MSI-X is studied. Note that the course can be adapted to only cover PCIe 1.1 or PCIe 2.0. A lot of trainings have been developed on particular PCIe implementations, see our courses on FPGAs and SoCs. A more detailed course description is available on request at guillaume.peron@ac6.fr

Prerequisites
	Knowledge of PCI / PCI-X is recommended.
	See our courses PCI, reference IC1 and PCI-X, reference IC3

Plan

THE TRANSITION TO PACKET SWITCHING PCI bus limitations The hub link bus PCI-X Solutions to increase the performance : differential transmission, packet switching INTRODUCTION TO PCI EXPRESS Topology Data Link Control and Management State Machine Transaction traffic types Quality of Service The physical layer Configuration space Switch logical view THE PHYSICAL LAYER - LOGICAL SUB-BLOCK Overview of the Physical layer, hightlighting the various units present in transmitter and receiver Byte dispatching rules for multi-lane links Purpose of scrambling Elastic buffer operation De-skew 8-bit / 10-bit coding (2.5 Gbps and 5.0 Gbps) Data Byte encoding Control symbol utilization DC-balance through running disparity 128-bit / 130-bit coding (8.0 Gbps) Block alignment, utilization of EIEOS Clarifying how DC-balance is obtained Framing tokens Link equalization procedure Link Training and Status State Machine [LTSSM] Reset signalling Lane reversal, polarity inversion Detect state Polling state Configuration state Recovery state L0, L0s, L1 and L2 states Disabled, Loopback and Hot Reset states Testing the transmitter Compliance load board usage Testing the receiver THE PHYSICAL LAYER - ELECTRICAL SUB-BLOCK Interoperability criteria for 2.5, 5.0 and 8.0 Gbps Jitter budgeting and measurement Separate refclk architecture Transmitter specification, phase jitter filtering 5.0 Gbps transmitter margining Measurement setup for characterizing transmitters De-emphasis Rise and Fall times PLL bandwidth and peaking 8.0 Gbps transmitter equalization coefficient range and tolerance Receiver specification Calibration channel characteristics Return loss Receiver compliance eye diagram 8.0 Gbps post-processing procedure Behavioural Rx equalization algorithms (CTLE, DFE) Skew Receiver detect Low power modes, Beacon signal POWER MANAGEMENT Link state power management Native PCI Express power management mechanisms Relationship between function state and link state Power budgeting capability Slot power limit control Dynamic Power Allocation PACKET ROUTING Operation of PCI-to-PCI transparent bridge Packet routing by the address Packet routing by the ID Packet routed implicitely Access Control Services Alternative Routing ID Multicast addressing

TLP ACKNOWLEDGEMENT Counters / timers present in the transmitter and the receiver Explaining the acknowledge protocol through sequences Sizing Cut-through switches QUALITY OF SERVICE Introduction, traffic differentiation VC arbitration Port arbitration, switch model FLOW CONTROL Overview, transmit credit principle Initialization, advertising infinite credits Credit update frequency Flow Control Packet Optimized Buffer Flush / Fill message Explaining the flow control protocol through sequences TRANSACTION ORDERING PCI Producer / Consumer model Relaxed ordering permitted by PCI-X PCI Express transaction ordering rules Highlighting these rules through examples PIPE INTERFACE Interface clocking and reset PHY-LINK interface signals Elasticity buffer mode Rx polarity Selecting transmitter voltage levels Rx status codes Low power states PACKET FORMAT TLP format Poisoning a TLP, error forwarding Rules regarding read completions boundary TLP prefix usage TLP digest rules Processing hints INTERRUPT MANAGEMENT PCI interrupt management Transporting legacy interrupts through PCIe messages Message Signaled Interrupts Benefits of MSI-X ERROR MANAGEMENT PCI-like error management PCI Express basic error management PCI Express basic advanced error management Using completion status field to report an error HOT PLUG Accessing a device through a slot Card attachement sequence Hot-plug events THE CONFIGURATION SPACE Root Complex event collector PCI Express enumeration New features of PCIe 2.0 and PCIe 3.0: PCI Express Enhanced Configuration Access Mechanism Device serial number capability Root Complex link declaration capability Root Complex internal link control capability ACS extended capability Multicast extended capability DEBUGGING A PCI EXPRESS SYSTEM Compliance lists The Serial Data Analyser from Lecroy, test of the physical layer Protocol analyser / exercicer from Lecroy Trace analysis

 

Durée	Prix	Calendrier
4 jours	1950 €