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I primarily come from an Embedded Software background and hence I have very limited knowledge about hardware in general. I always use to think Ethernet as that little physical connector on your computer into which you attach your Ethernet cable. And from a Software perspective all you need to do is to install the driver (in Windows) or configure the Linux kernel to include the driver for your Ethernet.

Questions:

But as I have started going down one level (towards the hardware) and looking at various datasheet and schematics, I have started to come across terms like PHY, MII, SGMII, RGMII, etc. And now I am little confused as to what constitutes an Ethernet? For example, when I say Intel 82574L 1.0 Gbps Ethernet port, where do all these terms fit in?

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    When you get up to 10Gbps networking you'll also encounter XGMII ("X" ten "G" gig "MII") and a whole load of other fun acronyms (XAUI, XFI, SFI, SFP, ...), same again for 40/100G :) – Chiggs Jan 27 '14 at 17:32
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Let me try to explain:

(1)The MII, SGMII, RGMII are three kinds of interface between the MAC chip and the PHY chip. The Intel 82574L is one MAC chip. Looking following figure:

 _______         __________                  ___________
  CPU  | PCI-E   |        |  MII/SGMII/RGMII |         |
  or   |<=======>| MAC    |<================>| PHY     |<==========>physical interface 
  board| or else |        |                  |         |
________         __________                  ___________

For details about MII(100Mbps), SGMII(1Gbps, serial), RGMII(1Gbps, reduced) definition, you can google them.

(2)Basically speaking, NIC(Network Interface Card) consist of one MAC chip and related PHY chip, and other peripheral modules. And also one ethernet device driver should work with the NIC hardware. The MAC chip has one interface with the control CPU or PC mainboard, such as PCI-E bus or else.

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    What is a PHY chip? How it is different than a MAC chip? Also, based on your explanation it seems MII, SGMII and RGMII are just specification for interconnecting PHY and MAC chip? Is that right? – modest Apr 3 '13 at 3:09
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    Yeah, you're right about the MII/SGMII/RGMII. The difference between PHY and MAC is easy to google. Simply speaking, PHY chip is handling the physical signals, such as working mode, duplex, and negotiation. While MAC chip is handling the data link layer, ethernet frame creation. – tian_yufeng Apr 3 '13 at 9:55
  • Hi @tian_yufeng, May you please explain on what is the difference between RGMII and SGMII auto-negotiation? As I tried to google, for RGMII auto negotiation we only need to read the status from the PHY chip. But for SGMII, beside the negotiation on the wire, there is another negotiation between the MAC and the PHY. It makes me confused – Dien Nguyen Jul 21 '14 at 23:16
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    The Intel 82574L is not only a MAC chip, it also contains a PHY. – Simon Mar 4 '15 at 11:13
  • So what NIC "drivers" actually drive is the MAC chip right? Those Tx and Rx ring buffers are all on the "MAC" chip I presume. Is that correct? As for the PHY "chip", can we say all it does is connect the MAC chip with the actual RJ-45 connector?? – HighOnMeat Nov 20 '19 at 15:58
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Some definitions:

  • MAC - media access controller. This is the part of the system which converts a packet from the OS into a stream of bytes to be put on the wire (or fibre). Often interfaces to the host processor over something like PCI Express (for example).
  • PHY - physical layer - converts a stream of bytes from the MAC into signals on one or more wires or fibres.
  • MII - media independent interface. Just a standard set of pins between the MAC and the PHY, so that the MAC doesn't have to know or care what the physical medium is, and the PHY doesn't have to know or care how the host processor interface looks.

The MII was standardised a long time ago and supports 100Mbit/sec speeds. A version using less pins is also available, RMII ('R' for reduced).

For gigabit speeds, the GMII ('G' for gigabit) interface is used, with a reduced pincount version called RGMII. A very reduced pincount version called SGMII is also available ('S' for serial) which requires special capabilities on the IO pins of the MAC, whereas the other xMIIs are relatively conventional logic signals.

There are also many more varieties of interfaces used in other circumstances, may of which are linked to from the Wikipedia MII page:

http://en.wikipedia.org/wiki/Media_Independent_Interface

Regarding your specific Intel chip question - as far as I can tell (the datasheet link seems dead), that chip is a MAC, with PCIe. So it will sit between the PCIe bus on the host and some kind of gigabit physical layer (PHY).

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  • Hi Martin T. - Thank you for this explanation. I am new to Ethernet PHY world and this simplistic explanation helped me with the basics. – Satish Oct 18 at 20:58
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You might want to look for the term "7 Layers of OSI" in which some frequently heard terms;

**Ethernet PHY Corresponds to Physical Layer which consists from the literally physical components of the communication.

**Ethernet MAC(not the Mac Address but the Media-Access Controller) Corresponds to Data-Link Layer, which is responsible from arranging the frames before sending them to physical layer.

Configurations such as MII, RMII, Auto-Negotion are configured from these two.And there are libraries to make your life easy.

**Network Layer is the one responsible from routing of the packets. Protocols such as IP and DHCP are considered to be in this layer. Also this layer is the first lowest layer that is solely software based. If you are using light-weight IP for example ip & netif libraries are the ones everything else build upon.

** Transport Layer is where transmission protocols such as TCP & UDP can be found.

Hope it helps, I dont know much about the upper layers sadly.

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The Intel 82574L chip contains both the MAC and the PHY.

Refer to the Architecture block diagram on page 15 in the datasheet available from here: https://ark.intel.com/content/www/us/en/ark/products/32209/intel-82574l-gigabit-ethernet-controller.html

The MAC and PHY are both there, but from my non-engineer view, I was confused about the MII connections because I was expecting two separate chips.

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