91超碰碰碰碰久久久久久综合_超碰av人澡人澡人澡人澡人掠_国产黄大片在线观看画质优化_txt小说免费全本

溫馨提示×

溫馨提示×

您好,登錄后才能下訂單哦!

密碼登錄×
登錄注冊×
其他方式登錄
點擊 登錄注冊 即表示同意《億速云用戶服務條款》

VMXNET3 vs E1000E and E1000

發布時間:2020-04-06 21:52:50 來源:網絡 閱讀:6649 作者:jcghaier 欄目:系統運維

Network performance with VMXNET3 compared to E1000E and E1000. This article explains the difference between the virtual network adapters and part 2 will demonstrate how much network performance could be gained by selecting the paravirtualized adapter.

The VMware administrator has several different virtual network adapters available to attach to the virtual machines. The virtual adapters belong to either of two groups:

VMXNET3 vs E1000E and E1000

Emulated:

These are virtual hardware who emulates real existing physical network adapters. (Note that the physical network cards in the physical ESXi host is totally unrelated.) The VMkernel will present something that to the guest operating system will look exactly as some specific real world hardware and the guest could detect them through plug and play and use a native device driver.

Examples for the emulated devices are:

E1000 – which will emulate a 1 Gbit Intel 82545EM card, and is available for most operating systems since the generation of Windows Server 2003. This card is the default when creating almost all virtual machines and is by that widely used.

E1000E – emulates a newer real network adapter, the 1 Gbit Intel 82574, and is available for Windows 2012 and later. The E1000E needs VM hardware version 8 or later.

VMXNET3 vs E1000E and E1000

Above in Windows 2008 R2 with an emulated E1000 adapter the native guest operating system device driver is in use.

The positive side of the emulated network adapters are that they work “out of the box” and need no external code from VMware. It could be used to even (if needed) install the guest operating system by PXE since the E1000 device is available already from the BIOS start up.

The negative side is when using the default emulated adapters extra work is needed for every frame being sent or received from the guest operating system (which could be many thousands each second).
The VMkernel has to in “real time” emulate the exact behavior of the specific Intel 82545EM or 82574 cards, which will cost time and CPU cycles.

VMXNET3 vs E1000E and E1000

Paravirtualized:

The other type of virtual network adapters are the “paravirtualized”. The most recent one is calledVMXNET3.

The paravirtualized network card does not exist as a physical NIC, but is a device “made up” entirely by VMware. For the guest operating system this will mean that it typically during the OS installation phase only senses that an unknown device is located in a PCI slot on the (virtual) motherboard, but it has no driver to actually use it.

(Note: some Linux distributions do even have the VMXNET3 driver pre-installed.)

VMXNET3 vs E1000E and E1000

For Windows Server, when a device driver is supplied, typically through the installation of VMware Tools, the guest operating system will perceive this as a real NIC from some network card manufacturer called “VMware” and use it as an ordinary network adapter. It has no reason to believe anything else than this is a NIC just as any other NIC around.

VMXNET3 vs E1000E and E1000

To the guest operating system the VMXNET3 card looks like a 10 Gbit physical device.

Note: there are also two obsolete paravirtualized adapters called VMXNET and VMXNET2 (sometimes the “Enhanced VMXNET”), however as long as the virtual machine has at least hardware version 7 only the VMXNET3 adapter should be used.

Since VMware with the VMXNET3 card owns much more of the network components even inside the VM there are many performance enhancements that could done. With the emulated E1000/E1000E the kernel has to mimic the exact behavior of existing adapters to the guest but with the VMXNET3 it could create a “perfect” virtual adapter optimized to be used in a virtual environment.

In the first article the general difference between the adapter types was explained.

In this article we will test the network throughput in the two most common Windows operating systems today: Windows 2008 R2 and Windows 2012 R2, and see the performance of the VMXNET3 vs the E1000 and the E1000E.

VMXNET3 vs E1000E and E1000

To generate large amounts of network traffic I used the iperf tool running on two virtual machines, one iperf “client” and the other as “server”. I have found that the following iperf settings generates the best combination for network throughput tests on Windows Server:

Server: iperf -s -w 64k -l 128k

Client: iperf -c <SERVER-IP> -P 16 -w 64k -l 128k -t 30

The test was done on HP Proliant Bl460c Gen8 with the virtual machines were running on the same physical host to be able to see the network performance regardless of the physical network connection between physical hosts/blades.

All settings on the E1000, E1000E and VMXNET3 was default. More on possible tweakings of the VMXNET3 card settings will be explained in a later article.

(It shall of course be noted that the following results are just observations from tests on one specific hardware and ESXi configuration, and is not in any way a “scientific” study.)

Test 1: Windows 2008 R2 with the default E1000 adapter

VMXNET3 vs E1000E and E1000

Two Windows 2008 R2 virtual machines, one as iperf server and the other as client, with the test running in 30 seconds.

As noted in the Task Manager view the 1 Gbit link speed was maxed out. A somewhat interesting fact is that even with the emulated E1000 adapter it is possible to use more than what “should” be possible on a 1 Gbit link.

VMXNET3 vs E1000E and E1000

From the iperf client output we can see that we reach a total throughput of 2.65 Gbit per second with the default E1000 virtual adapter.

Test 2: Windows 2008 R2 with the VMXNET3 adapter

VMXNET3 vs E1000E and E1000

The Task Manager view reports utilization around 39% of the 10 Gbit link in the Iperf client VM.

VMXNET3 vs E1000E and E1000

The iperf output shows a total throughput for VMXNET3 of 4.47 Gbit / second over the time the test was conducted.

The VMXNET3 adapter demonstrates almost 70 % better network throughput than the E1000 card on Windows 2008 R2.

Test 3: Windows 2012 R2 with the E1000E adapter

VMXNET3 vs E1000E and E1000

The E1000E is a newer, and more “enhanced” version of the E1000. To the guest operating system it looks like the physical adapter Intel 82547 network interface card.

However, even if it is a newer adapter it did actually deliver lower throughput than the E1000 adapter.

VMXNET3 vs E1000E and E1000

Two virtual machines running Windows 2012 R2 with the iperf tool running as client and server.

VMXNET3 vs E1000E and E1000

E1000E got 1.88 Gbit / sec, which is considerable lower than the 2.65 Gbit/s for the original E1000 on Windows 2008 R2.

Test 4: Windows 2012 R2 with the VMXNET3 adapter

VMXNET3 vs E1000E and E1000

The two Windows 2012 R2 virtual machines now running with VMXNET3 adapter got the following iperf results:

VMXNET3 vs E1000E and E1000

The throughput was 4.66 Gbit/sec, which is very close to the result of VMXNET3 on Windows 2008 R2, but almost 150 % better than the new E1000E.

VMXNET3 vs E1000E and E1000

In summary the VMXNET3 adapter delivers greatly more network throughput performance than both E1000 and E1000E. Also, in at least this test setup the newer E1000E performed actually lower than the older E1000.

The test was done on Windows Server virtual machines and the top throughput of around 4.6 Gbit/sec for the VMXNET3 adapter could be the result of limitations in the TCP implementations. Other operating systems with other TCP stacks might achieve even higher numbers. It shall be noted also that these test was just for the network throughput, but there are of course other factors as well, which might be further discussed in later articles.


向AI問一下細節

免責聲明:本站發布的內容(圖片、視頻和文字)以原創、轉載和分享為主,文章觀點不代表本網站立場,如果涉及侵權請聯系站長郵箱:is@yisu.com進行舉報,并提供相關證據,一經查實,將立刻刪除涉嫌侵權內容。

AI

确山县| 汤阴县| 澄江县| 江陵县| 大荔县| 铜梁县| 云霄县| 华安县| 元阳县| 武冈市| 乐东| 龙泉市| 沙雅县| 徐闻县| 遵义市| 古交市| 随州市| 麟游县| 玉门市| 宕昌县| 建平县| 吉木萨尔县| 海林市| 陈巴尔虎旗| 阿拉善左旗| 拉孜县| 襄城县| 乌兰察布市| 龙游县| 伊吾县| 镇远县| 齐齐哈尔市| 阜新市| 上思县| 友谊县| 申扎县| 库伦旗| 连平县| 中卫市| 盖州市| 巴东县|