Latest Posts
With the widespread adoption of compute-intensive workloads – such as artificial intelligence and machine learning – in enterprise and cloud data centers, high-speed, low-latency interconnects like PCI Express® architecture are required to connect high-performance nodes.
- Standards & Compliance
- PCIe 4.0
- PCIe 5.0
- PCIe retimers
- PCIe redrivers
- PCIe 5.0 specification
One of the many new features included in the PCI Express® (PCIe®) specification will be PAM4 (Pulse Amplitude Modulation with 4 levels) signaling.
- Systems & Applications
- PCIe 6.0
- PCI Express 6.0
- What is PAM4
- PAM4
- PCIe FEC
- Forward Error Correction
PCI Express® (PCIe®) technology is the most important high-speed serial bus in servers. Due to its high bandwidth and low latency characteristics, PCI Express architecture is widely used in various server interconnect scenarios, such as:
- Signal Integrity
- PCIe 5.0
- PCI Express 5.0
- PCIe CEM
- PCIe Channel Loss
At PCI-SIG, we take pride in ensuring that our specifications operate without a hitch. However, sometimes PCI Express developers need to submit Engineering Change Requests (ECRs) to update parts of the specification so that PCIe integrated products can reach their optimal functionality.
- Standards & Compliance
- PCIe Engineering Change Requests
- Firmware
- UEFI
- ACPI
PCI Express® – also known as PCIe – used to get a bad rap for being power hungry on servers and PCs. But I’m happy to say that this is no longer the case. Are you aware that PCIe today is extremely power efficient with built-in low power features?
- Systems & Applications
- PCI-SIG
- PCI Express 3.0
- PCIe 3.0
- PCIe Latency
- PCIe low power