PEX8749, PCI Express Gen 3 Switch, 48 Lanes, 18 Ports Highlights PEX8749 General Features o 48-lane, 18-port PCIe Gen 3 switch - Integrated 8.0 GT/s SerDes o 27 x 27mm2, 676-pin FCBGA package o Typical Power: 7.3 Watts PEX8749 Key Features o Standards Compliant - PCI Express Base Specification, r3.0 (compatible w/ PCIe r1.0a/1.1 & 2.0) - PCI Power Management Spec, r1.2 - Microsoft Vista Compliant - Supports Access Control Services - Dynamic link-width control - Dynamic SerDes speed control o High Performance performancePAK Read Pacing (bandwidth throttling) Multicast Dynamic Buffer/FC Credit Pool - Non-blocking switch fabric - Full line rate on all ports - Packet Cut-Thru with 126ns max packet latency (x16 to x16) - 2KB Max Payload Size o Integrated DMA Engine - Four DMA Channels - Internal Descriptor Support - DMA function independent from transparent switch function - 64-bit Addressing - Pre-fetch Descriptor Mode - Stride Mode o Multi-Host & Fail-Over Support - 2 Configurable Non-Transparent ports - Failover with Non-Transparent port - Up to 6 upstream/Host ports with 1+1 or N+1 failover to other upstream ports o Quality of Service (QoS) - Two Virtual Channels - Eight traffic classes per port - Weighted round-robin source port arbitration o Reliability, Availability, Serviceability visionPAK Per Port Performance Monitoring SerDes Eye Capture PCIe Packet Generator Error Injection and Loopback - 3 Hot-Plug Ports with native HP Signals - All ports hot-plug capable thru I2C - SSC Isolation on up to 12 ports - ECRC and Poison bit support - Data Path parity - Memory (RAM) Error Correction - Advanced Error Reporting - Port Status bits and GPIO available - JTAG AC/DC boundary scan (c) PLX Technology, www.plxtech.com The ExpressLaneTM PEX8749 device offers Multi-Host PCI Express switching capability enabling users to connect multiple hosts to their respective endpoints via scalable, high bandwidth, non-blocking interconnection to a wide variety of applications including servers, storage, communications, and graphics platforms. The PEX8749 is well suited for fan-out, aggregation, and peer-to-peer traffic patterns. Multi-Host Architecture The PEX8749 employs an enhanced version of PLX's field tested PEX8748 PCIe switch architecture, which allows users to configure the device in legacy single-host mode or multi-host mode with up to six host ports capable of 1+1 (one active & one backup) or N+1 (N active & one backup) host failover. This powerful architectural enhancement enables users to build PCIe based systems to support high-availability, failover, redundant, or clustered systems. High Performance & Low Packet Latency The PEX8749 architecture supports packet cut-thru with a maximum latency of 126ns (x16 to x16). This, combined with large packet memory, flexible common buffer/FC credit pool and non-blocking internal switch architecture, provides full line rate on all ports for performance-hungry applications such as servers and switch fabrics. The low latency enables applications to achieve high throughput and performance. In addition to low latency, the device supports a packet payload size of up to 2048 bytes, enabling the user to achieve even higher throughput. Integrated DMA Engine The PEX8749 boasts a versatile and powerful built-in DMA engine. The DMA engine removes the burden of having to move data between devices away from the processor - allowing the processor to perform computational tasks instead. The four DMA channels can support high data rate transfers between I/O devices connected to any of the switch's ports. Additionally, the DMA engine in the PEX8749 can be used to complement the DMA engine in the processor by providing additional DMA channels for higher performance. Data Integrity The PEX8749 provides end-to-end CRC (ECRC) protection and Poison bit support to enable designs that require end-to-end data integrity. PLX also supports data path parity and memory (RAM) error correction circuitry throughout the internal data paths as packets pass through the switch. Flexible Configuration The PEX8749's 18 ports can be configured to lane widths of x1, x2, x4, x8, or x16. Flexible buffer allocation, along with the device's flexible packet flow control, maximizes throughput for applications where more traffic flows in the downstream, rather than upstream, direction. Any port can be designated as the upstream port, which can be changed dynamically. Figure 1 shows some of the PEX8749's common port configurations in legacy Single-Host mode. Page 1 of 5 x16 x8 PEX 8749 PEX 8749 4 x8 10 x4 x8 PEX 8749 6 x4 8 x2 x4 PEX 8749 17 x2 or x1 Figure 1. Single-Host Port Configurations 22Aug11, version 1.0 PEX8749, PCI Express Gen 3 Switch, 48 Lanes, 18 Ports The PEX8749 can also be configured in Multi-Host mode where users can choose up to six ports as host/upstream ports and assign a desired number of downstream ports to each host. In Multi-Host mode, a virtual switch is created for each host port and its associated downstream ports inside the device. The traffic between the ports of a virtual switch is completely isolated from the traffic in other virtual switches. Figure 2 illustrates some configurations of the PEX8749 in Multi-Host mode where each ellipse represents a virtual switch inside the device. x8 x8 x8 x4 x4 The PEX8749 also provides several ways to configure its PEX 8749 PEX 8749 registers. The device can be configured 2 x4 2 x8 2 x4 2 x4 3 x8 through 4 x4s 3 x2s 2 x4s strapping pins, I2C interface, host software, or PEX 8749 PEX 8749 an optional serial EEPROM. This allows for 8 x4s 9 x2s 4 x4s easy debug Figure 2. Multi-Host Port Configurations during the development phase, performance monitoring during the operation phase, and driver or software upgrade. Dual-Host & Failover Support In Single-Host mode, the PEX8749 supports 2 NonTransparent (NT) Ports, Primary Secondary Primary Host Host Secondary Host Host which enables the CPU CPU implementation of dual-host systems for Root redundancy and host Complex failover capability. The NT port allows systems NT to isolate host memory PEX 8749 Non-Transparent domains by presenting Port the processor End End End subsystem Point Point Point as an endpoint rather Figure 3. Non-Transparent Port than another memory system. Base address registers are used to translate addresses; doorbell registers are used to send interrupts between the address domains; and scratchpad registers (accessible by both CPUs) allow inter-processor communication (see Figure 3). (c) PLX Technology, www.plxtech.com Multi-Host & Failover Support In Multi-Host mode, PEX8749 can be configured with up to six upstream host ports, each with its own dedicated downstream ports. The device can be configured for 1+1 redundancy or N+1 redundancy. The PEX8749 allows the hosts to communicate their status to each other via special door-bell registers. In failover mode, if a host fails, the host designated for failover will disable the upstream port attached to the failing host and program the downstream ports of that host to its own domain. Figure 4a shows a two host system in Multi-Host mode with two virtual switches inside the device and Figure 4b shows Host 1 disabled after failure and Host 2 having taken over all of Host 1's end-points. Hot-Plug for High Availability Hot-plug capability allows users to replace hardware modules and perform maintenance without powering down the system. The PEX8749 hot plug capability feature makes it suitable for High Availability (HA) applications. Three downstream ports include a Standard Hot Plug Controller. If the PEX8749 is used in an application where one or more of its downstream ports connect to PCI Express slots, each port's Hot-Plug Controller can be used to manage the hot-plug event of its associated slot. Every port on the PEX8749 is equipped with a hot-plug control/status register to support hot-plug capability through external logic via the I2C interface. SerDes Power and Signal Management The PEX8749 provides low power capability that is fully compliant with the PCIe power management specification and supports software control of the SerDes outputs to allow optimization of power and signal strength in a system. Furthermore, the SerDes block supports loop-back modes and advanced reporting of error conditions, which enables efficient management of the entire system. Interoperability The PEX8749 is designed to be fully compliant with the PCI Express Base Specification r3.0, and is backwards compatible to PCI Express Base Specification r2.0, r1.1, Page 2 of 5 22Aug11, version 1.0 PEX 8749, PCI Express Gen 3 Switch, 48 Lanes, 18 Ports and r1.0a. Additionally, it supports auto-negotiation, lane reversal, and polarity reversal. Furthermore, the PEX8749 is tested for Microsoft Vista compliance as well. All PLX switches undergo thorough interoperability testing in PLX's Interoperability Lab and compliance testing at the PCI-SIG plug-fest. users can use to help bring their systems to market faster. visionPAK features consist of Performance Monitoring, SerDes Eye Capture, Error Injection, SerDes Loopback, and more. Performance Monitoring Exclusive to PLX, performancePAK is a suite of unique and innovative performance features which allows PLX's Gen 3 switches to be the highest performing Gen 3 switches in the market today. The performancePAK features consists of the Read Pacing, Multicast, and Dynamic Buffer Pool. The PEX8749's real time performance monitoring allows users to literally "see" ingress and egress performance on each port as traffic passes through the switch using PLX's Software Development Kit (SDK). The monitoring is completely passive and therefore has no affect on overall system performance. Internal counters provide extensive granularity down to traffic & packet type and even allows for the filtering of traffic (i.e. count only Memory Writes). Read Pacing SerDes Eye Capture performancePAKTM The Read Pacing feature allows users to throttle the amount of read requests being made by downstream devices. When a downstream device requests several long reads back-to-back, the Root Complex gets tied up in serving that downstream port. If that port has a narrow link and is therefore slow in receiving these read packets from the Root Complex, then other downstream ports may become starved - thus, impacting performance. The Read Pacing feature enhances performances by allowing for the adequate servicing of all downstream devices. Users can evaluate their system's signal integrity at the physical layer using the PEX8749's SerDes Eye Capture feature. Using PLX's SDK, users can view the receiver eye of any lane on the switch. Users can then modify SerDes settings and see the impact on the receiver eye. Figure 5 shows a screenshot of the SerDes Eye Capture feature in the SDK. Multicast The Multicast feature enables the copying of data (packets) from one ingress port to multiple (up to 17) egress ports in one transaction allowing for higher performance in dualgraphics, storage, security, and redundant applications, among others. Multicast relieves the CPU from having to conduct multiple redundant transactions, resulting in higher system performance. Dynamic Buffer Pool The PEX8749 employs a dynamic buffer pool for Flow Control (FC) management. As opposed to a static buffer scheme which assigns fixed, static buffers to each port, PLX's dynamic buffer allocation scheme utilizes a common pool of FC Credits which are shared by other ports. This shared buffer pool is fully programmable by the user, so FC credits can be allocated among the ports as needed. Not only does this prevent wasted buffers and inappropriate buffer assignments, any unallocated buffers remain in the common buffer pool and can then be used for faster FC credit updates. visionPAKTM Figure 5. SerDes Eye Capture PCIe Packet Generator The PEX8749 features a full-fledged PCIe Packet Generator capable of creating programmable PCIe traffic running at up to Gen 3 speeds and capable of saturating a x16 link. Using PLX's Software Development Kit (www.plxtech.com/sdk), designers can create custom traffic scripts for system bring-up and debug. Fully integrated into the PEX8749, the Packet Generator proves to be a very convenient on-chip debug tool. Furthermore, the Packet Generator can be used to create PCIe traffic to test and debug other devices in the system. Another PLX exclusive, visionPAK is a debug diagnostics suite of integrated hardware and software instruments that (c) PLX Technology, www.plxtech.com Page 3 of 5 22Aug11, version 1.0 PEX 8749, PCI Express Gen 3 Switch, 48 Lanes, 18 Ports Error Injection & SerDes Loopback Using the PEX8749's Error Injection feature, users can inject malformed packets and/or fatal errors into their system and evaluate a system's ability to detect and recover from such errors. The PEX8749 also supports Internal Tx, External Tx, Recovered Clock, and Recovered Data Loopback modes. of switches required for fan-out, saving precious board space and power consumption. In Figure 7, the PEX8749 is being shared by four different servers (hosts) with each server is running its own applications (I/Os). The PEX8749 assigns the endpoints to the appropriate host and isolates them from the other hosts. Host Failover Figure 6. Host Centric Dual Upstream In multi-host mode, the PEX8749 can be shared by up to six hosts in a system. By creating six virtual Mem Mem Mem Mem switches, the PCH PCH PCH PCH PEX8749 I/Os I/Os I/Os I/Os allows six hosts to fanout to their PEX 8749 respective endpoints. I/O I/O I/O I/O This reduces I/O I/O I/O I/O the number CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU CPU Figure 7. Multi-Host System (c) PLX Technology, www.plxtech.com CPU CPU CPU Endpoint CPU CPU Endpoint CPU CPU N+1 Fail-Over in Storage Systems The PEX8749's Multi-Host feature can also be used to develop storage array clusters where each host manages a set of storage devices independent of others (Figure 9). Users can designate one of the hosts as the failover-host for all the other hosts while actively managing its own endpoints. The failover-host will communicate with other hosts for status/heartbeat information and execute a failover event if/when it gets triggered. Multi-Host Systems CPU CPU Endpoint The PEX8749, with its symmetric or asymmetric lane configuration capability, allows user-specific tuning to a variety of host-centric applications. Figure 6 shows a server design where, in a quad or multi processor system, users can assign endpoints/slots to CPU cores to distribute the system load. The packets directed to different CPU cores will go to different (user assigned) PEX8749 upstream ports, CPU CPU allowing better PCH Memory CPU CPU queuing and load PCI x8 x8 balancing SATA capability for x1s higher PEX 8749 performance. x8s x4s Conversely, the Endpoint PEX8749 can also be used in single-host mode PCIe Gen1, Gen2, or Gen3 slots to simply fan-out to endpoints. Endpoint Host Centric Fan-out Endpoint Suitable for host-centric as well as peer-to-peer traffic patterns, the PEX8749 can be configured for a wide variety of form factors and applications. The PEX8749 can also be utilized in applications where host failover is required. In the below application (Figure 8), two hosts may be active simultaneously and controlling their own domains while exchange status information through doorbell registers or I2C interface. The devices can be programmed to trigger fail-over if the heartbeat information is not provided. In the event of a failure, the x8 x8 surviving device will reset the endpoints connected to x8s PEX 8749 PEX 8749 the failing CPU and x8s x8s enumerate them in its own domain without impacting the operation of endpoints already in its domain. Figure 8. Host Fail-Over Endpoint Applications Page 4 of 5 CPU CPU CPU CPU CPU CPU CPU CPU x4 x4 x8 x8 PEX 8749 x4 x4 x8 x8 PEX 8716 PEX 8716 PEX 8712 x4 x4 x4 x4 PEX 8712 x4 x4 FC FC x4 x4 FC FC FC FC FC FC 8 Disk Chassis 8 Disk Chassis 8 Disk Chassis 8 Disk Chassis Figure 9. N+1 Failover 22Aug11, version 1.0 PEX 8749, PCI Express Gen 3 Switch, 48 Lanes, 18 Ports Software Model ExpressLane PEX8749 RDK From a system model viewpoint, each PCI Express port is a virtual PCI to PCI bridge device and has its own set of PCI Express configuration registers. It is through the upstream port that the BIOS or host can configure the other ports using standard PCI enumeration. The virtual PCI to PCI bridges within the PEX8749 are compliant to the PCI and PCI Express system models. The Configuration Space Registers (CSRs) in a virtual primary/secondary PCI to PCI bridge are accessible by type 0 configuration cycles through the virtual primary bus interface (matching bus number, device number, and function number). Interrupt Sources/Events The PEX8749 switch supports the INTx interrupt message type (compatible with PCI 2.3 Interrupt signals) or Message Signaled Interrupts (MSI) when enabled. Interrupts/messages are generated by PEX8749 for hot plug events, doorbell interrupts, baseline error reporting, and advanced error reporting. The PEX8749 RDK (see Figure 10) is a hardware module containing the PEX8749 which plugs right into your system. The PEX8749 RDK can be used to test and validate customer software, or used as an evaluation vehicle for PEX8749 features and benefits. The PEX8749 RDK provides everything that a user needs to get their hardware and software development started. Software Development Kit (SDK) PLX's Software Development Kit is available for download at www.plxtech.com/sdk. The software development kit includes drivers, source code, and GUI interfaces to aid in configuring and debugging the PEX8749. Both performancePAK and visionPAK are supported by PLX's RDK and SDK, the industry's most advanced hardware- and software-development kits. Product Ordering Information Part Number PEX8749-BA80BC G PEX8749-BA RDK Description 48-Lane, 18-Port PCI Express Switch, Pb-Free (27x27mm2) PEX8749 Rapid Development Kit PLX Technology, Inc. All rights reserved. PLX, the PLX logo, ExpressLane, Read Pacing and Dual Cast are trademarks of PLX Technology, Inc. All other product names that appear in this material are for identification purposes only and are acknowledged to be trademarks or registered trademarks of their respective companies. Information supplied by PLX is believed to be accurate and reliable, but PLX assumes no responsibility for any errors that may appear in this material. PLX reserves the right, without notice, to make changes in product design or specification. Visit www.plxtech.com for more information. Figure 10. PEX8749 RDK Development Tools PLX offers hardware and software tools to enable rapid customer design activity. These tools consist of a hardware module (PEX8749 RDK), hardware documentation (available at www.plxtech.com), and a Software Development Kit (also available at www.plxtech.com). (c) PLX Technology, www.plxtech.com Page 5 of 5 22Aug11, version 1.0 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Avago Technologies: PEX 8749-CA80BC G PEX 8749-CA RDK PEX8749-CA RDK PEX8749-CA80BC G