EDSFF Form Factor Updates In 2020: New Versions Growing Adoption

The Enterprise and Datacenter SSD Form Factor family of standards is now about three years old, and continues to evolve. The EDSFF form factor options are gaining traction in several markets, and lessons learned by early adopters are still driving tweaks to the specifications. The myriad variations under the EDSFF umbrella have not been simplified much, but at least the brief format war between th

e EDSFF E1.S form factor and Samsungs NF1 has concluded, with Samsung now supporting and contributing to the E1.S standard. As EDSFF adoption increases, well probably see several variants fall into irrelevance, as happened to some of the less popular M.2 card sizes. But even once its clear which members of the EDSFF family are succeeding in the market, the less popular options will probably remain part of the standards documents.

The EDSFF flavors all share a common connector standard, which originated as the Gen-Z Scalable Connector Standard and has been adopted by several other standards. The Gen-Z connector provides much higher density than traditional PCIe slots, supplies the 12V power that M.2 lacks, and is relatively future-proof by offering adequate signal integrity for future versions of PCIe. The EDSFF standards define three sizes of the connector and pinouts for PCIe x4, x8 and x16 links.

The EDSFF form factors come in two heights: sized for 1U servers are E1.S and E1.L, the short and long derivatives of the Intel Ruler concept. For 2U servers, the E3 sizes are similar to the existing 2.5 drive form factor.

Reboot Of E3

The most significant changes in the past year were to the E3 form factors. Earlier this month version 2.0 of the E3 form factor spec was published, breaking backwards compatibility with version 1.0 from 2018. The motivation for the incompatible changes came from the Open Compute Project (OCP) NIC 3.0 specification, which has similar dimensions but uses a new variant of the Gen-Z connector: OCP added a fourth tab with 28 extra contacts to carry various sideband signals not included in the 4c (x16) version of the connector. The E3.S form factor was stretched a bit to match the dimensions of the OCP NIC 3.0 standard, and the connector location was moved to be compatible with the OCP NIC 3.0. With the new version of the EDSFF E3 spec, its now possible for servers to provide slots that can fulfill either role.

The E3 form factors are the most capable and flexible in the EDSFF. They support up to PCIe x16 connections, though most SSDs will continue to stick with just x4. The E3.L 2T offers similar physical volume and TDP to a half-height half-length PCIe add-in card. The E3.S in two thicknesses is slightly larger than the two common thicknesses for U.2/U.3 SSDs, but E3.S offers better cooling and the possibility of more PCIe lanes. The newly stretched E3.S is also now large enough that an E1.S PCB can be mounted inside an E3.S case, providing a quick and easy path for compatibility between the two heights.

        E3 version 2.0 Form Factor variants
        SFF-TA-1008
	
	
        Form Factor
        Approximate
        Dimensions (mm)
        Front Drive
        Bays in 2U
        Typical SSD
        Power Limit
        Max PCIe
        Lanes
	
	
        E3.S
        76
        113
        7.5
        48
        25 W
        x16
	
	
        E3.S 2T
        76
        113
        16.8
        24
        40 W
        x16
	
	
        E3.L
        76
        142
        7.5
        48
        40 W
        x16
	
	
        E3.L 2T
        76
        142
        16.8
        24
        70 W
        x16
	
	
		
		
	
	
        PCIe HHHL
        68
        168
        19
		
        40-75 W
        x16
	
	
        2.5 U.2
        7mm
        70
        100
        7
        48
        12 W
        x4
	
	
        15mm
        70
        100
        15
        24
        25 W
        x4
	
	
        3.5 U.2 (theoretical)
        102
        147
        26
        12
		
        x4
	
	
        M.2 22110
        22
        110
        5
		
        8.25 W
        x4

When the EDSFF family launched, most of the early attention was focused on the E1.S and E1.L form factors because they addressed the most pressing needs of hyperscale datacenters. The E3 form factors are more attractive for traditional enterprise servers, which take longer to adopt changes like this. Dell and HPE are the leading proponents of this part of the EDSFF family. Since the E3 standard was just rebooted with an incompatible change, were now looking at E3 version 2.0 products hitting the market around the first half of 2022.

Servers using E3 form factors are likely to use more than one version, such as providing a dozen or more thin slots for SSDs, plus several of the thicker 2T slots for NICs, accelerators, and higher-power SSDs (eg. based on 3D XPoint or some other storage class memory). While they are primarily intended for 2U systems, the E3 form factors can be used in 1U servers, but have some cooling and density disadvantages relative to E1.S for 1U systems.

E.1S In Production Use

The E1.S family has now grown to include five different thickness options. However, the standards for a bare PCB or one with just a heatspreader are not getting much attention. The three (formerly two) versions with a full enclosure seem to be the most popular. These can slide directly into a hot-swap bay without needing to be screwed into a tray or caddy. At the front of the drive is a flange with two screw holes which are used to attach an appropriate latching mechanism for whatever server chassis the drives will be installed into. Samsung has recently proposed modifying this with a few extra cutouts to enable a screw-less version of their latching mechanism, which will be quicker to install.

This years addition to the E1.S standard was a new intermediate thickness heatsink option proposed by Microsoft and intended for their Azure datacenters. Microsoft found that the 9.5mm symmetric enclosure didnt offer quite enough cooling for the kind of drive TDPs theyre expecting for PCIe Gen4 SSDs (at least, within the bounds of reasonable fan speeds), but the 25mm asymmetric enclosure/heatsink sacrifices a bit too much density and has excess thermal headroom that Microsoft doesnt need for their primary storage drives. As a result, theres now also a 15mm version standardized and already being deployed at scale.

        E1.S Form Factor variants
        SFF-TA-1006
	
	
        Form Factor
        Approximate
        Dimensions (mm)
        Front Drive
        Bays in 1U
        Typical SSD
        Power Limit
        Max PCIe
        Lanes
	
	
        E1.S
        Bare PCB
        32
        112
        5.9
		
        12 W
        x8
	
	
        Heatspreader
        32
        112
        8
		
        16 W
        x8
	
	
        Symmetric
        Enclosure
        34
        119
        9.5
        36
        20 W
        x8
	
	
        Asymmetric
        Enclosure
        34
        119
        15
        24
        20 W
        x8
	
	
        34
        119
        25
        16
        25 W
        x8
	
	
		
		
	
	
        M.2 22110
        22
        110
        5
		
        8.25 W
        x4
	
	
        2.5 U.2
        7mm
        70
        100
        7
        20
        12 W
        x4
	
	
        15mm
        70
        100
        15
        10
        25 W
        x4
	
	
        PCIe HHHL
        68
        168
        19
		
        40-75 W
        x16

The 9.5mm-thick enclosure option was already sufficient to kill off server M.2 drives except for boot drive usage: it offers the hot-swap capability and 12V power that M.2 lacks, and can be deployed with similar density. The newer 15mm thick heatsink version of E1.S may end up being more popular, but its a bit too new to judge how much traction it will get beyond the original proponents. Compared to 2.5/15mm U.2 SSDs, the E1.S 15mm form factor is still a significant improvement: four E1.S 15mm drives can fit in the space of two 15mm U.2 drives, and the E1.S drives are still easier to cool. Storage-focused systems can achieve higher density with the 9.5mm option, but the E1.L form factors offer even higher storage density.

The 25mm heatsink E1.S option now seems likely to be the least popular of the three enclosure choices. It still has a niche for squeezing high-power accelerators into 1U systems, but PCB width can be a limiting factor and the E3 form factors can also accommodate big, high-power chips. Any E1.S slot providing 8 instead of just 4 PCIe lanes is likely to use at least the 15mm heatsink option, because an accelerator capable of using that much bandwidth will need the extra cooling.

All of the E1.S variants use the same PCB and vary only in the metal enclosure and height of the heatsink (if any), so theres not much burden on SSD vendors to support all three of the 9.5mm, 15mm and 25mm. Server vendors face the tougher choice of deciding how wide to make their slots; narrower drives can be mounted in wider slots, but this may lead to unbalanced airflowthough not as bad as leaving a slot empty without a placeholder inserted. The most common configuration for general-purpose 1U servers might end up being a bank of E1.S slots for storage plus one or two E3.S/OCP NIC slotsthis seems especially likely if the OCP approach of putting all IO at the front of the server catches on outside of hyperscale datacenters.

E1.L Unchanged

There have been no recent changes to the E1.L form factor. This one remains the closest to Intels original Ruler concept. It is much longer than any other drive form factor, so the entire server layout must be designed around E1.L. This form factor will be used almost exclusively in systems designed for the sole purpose of containing a lot of flash memory, and will not see any significant adoption for general-purpose or compute-oriented servers. E1.L is suitable for drives with capacities of tens of TB each.

        E1.L Form Factor variants
        SFF-TA-1007
	
	
        Form Factor
        Approximate
        Dimensions (mm)
        Front Drive
        Bays in 1U
        Typical SSD
        Power Limit
        Max PCIe
        Lanes
	
	
        E1.L
        Thin
        38
        319
        9.5
        36
        25 W
        x8
	
	
        Thick
        38
        319
        18
        18
        40 W
        x8
	
	
		
		
	
	
        2.5 U.2
        15mm
        70
        100
        15
        10
        25 W
        x4
	
	
        PCIe HHHL
        68
        168
        19
		
        40-75 W
        x16

While not formally part of the EDSFF specifications, the Open Compute Projects storage working group has developed the OCP NVMe Cloud SSD specification. This is a unification of most of Microsoft and Facebooks requirements for their SSDs, covering areas like the optional NVMe features, telemetry capabilities, endurance and performance that those companies want. The Cloud SSD specification applies to M.2 22110, E1.S and E1.L form factors. Several SSD vendors are already targeting this specification, which will help cut down on the amount of firmware customization required by different customers.

Related Reading

Intel Introduces Ruler Server SSD Form-Factor: SFF-TA-1002 Connector, PCIe Gen 5 Ready
SSD Form Factors Proliferate At Flash Memory Summit 2018
FMS 2019: EDSFF Form Factors Update - Long, Short,  Everything In-Between
Kioxia Announces XD6 Datacenter SSDs: PCIe 4.0 and EDSFF At Scale
Western Digital Unveils Ultrastar DC SN640 SSDs: Up to 30.72 TB Capacity

Author: Billy Tallis

Date: 2020-11-25

URL: https://www.anandtech.com/show/16248/edsff-form-factor-updates

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