tutorial Archives

10 03, 2013

DOCSIS Reed-Solomon Codewords

Mia Colabrese2013-03-10T20:01:38-04:00March 10th, 2013|

How many bytes can a Reed-Solomon codeword bite? In my previous article on DOCSIS Codeword Errors, reader "Sandy" asked how many Reed-Solomon codewords would be required to transport a 1518 byte length of data? This is a very good question and one that I had never considered until I first faced when designing DOCSIS data-layer models in MATLAB. In the example I used in my previous article I chose a word that was 16 bytes long. I did this because it made it easy to draw an 8x8

27 02, 2012

DOCSIS 3.0 Cable Modem Registration

Mia Colabrese2021-08-17T16:15:14-04:00February 27th, 2012|

This article will discuss the channel bonding process and ultimately the DOCSIS 3.0 cable modem registration process. In order to be able to understand this article, I will make many references to my prior article on Cable Modem Registration which focused on DOCSIS 1.x and 2.0 cable modems.

24 06, 2011

DOCSIS T1, T2, T3, and T4 Timeout Descriptions

Mia Colabrese2022-06-20T20:55:33-04:00June 24th, 2011|

This is a handy summary of the various timeout errors you will find in a DOCSIS network. T3 and T4 timeouts are described in much more detail elswhere in this blog, however this post provides a high level overview of the various timeouts as a reference.

20 02, 2011

Fringe – President’s Day Topics

Mia Colabrese2020-07-02T15:20:04-04:00February 20th, 2011|

In case you have some free time on President's Day, here are of couple of things for you to take a look at. On the DOCSIS side, once you have had your dose of tutorials here, head over to the DOCSIS Help Forums at http://www.docsishelp.com/forums . Learn about Alice. While many of you are here to learn about DOCSIS, you may want to take an opportunity to find out the latest in educational software training out of Carnegie Mellon University (CMU). If you got excited about Alice, you may want to take the time to learn about one of the key creators of Alice, Randy Pausch.

5 09, 2010

DOCSIS 3.0 Tutorial – DOCSIS Does IPv6

Mia Colabrese2021-11-24T09:23:28-05:00September 5th, 2010|

Everyone is familiar with Internet Protocol version 4 (IPv4) addresses. You probably even set them up in your home network, such as 192.168.1.1 IPv4 is described in IETF publication RFC 791 (September 1981), which replaced the previous version RFC 760, dating back to January 1980. So its safe to say that IPv4 has been around for some time and serving us quite well. New in DOCSIS 3.0 has support for IPv6. Why do we need this new version? IPv6 has a vastly larger address space than IPv4. This results from the use of a 128-bit address, whereas IPv4 uses only 32 bits. Believe it or not, major cable operators are running out IP address. This is due to more customers, not just for cable modems, but also for set top boxes and VoIP eMTAs. Further, deployed in cable networks are IP devices such as power supplies with embedded cable modems for monitoring voltage, temperature, current and more. All networks are getting more IP devices requiring more and more IP addresses, so the 2128 addresses allocated in IPv4 are no longer sufficient and we turn to the 3.4×1038 addresses provided in IPv6.

22 08, 2010

DOCSIS 3.0 Tutorial – Upstream Channel Bonding

Mia Colabrese2021-11-24T09:39:36-05:00August 22nd, 2010|

The focus of this article will be on the mechanics of upstream channel bonding and how it works more from a DOCSIS protocol perspective. Much more detailed information can be found in the DOCSIS 3.0 MULPIv3.0 document located in the Library, but this will provide a high level overview for the layman who is curious about the basics. First lets understand that it is the cable modem that is doing the channel bonding, remember in the upstream the cable modem transmits data to the CMTS. Per DOCSIS 3.0, the CM can bond from one to four channels in the upstream as coordinated by the CMTS. The CM is always under control by the CMTS.

1 08, 2010

Hacking DOCSIS Cable Modems

Mia Colabrese2021-08-17T13:18:52-04:00August 1st, 2010|

Fundamental Precautions You Should Take to Secure Your Network DOCSIS security wholes are a serious problem, even if you are a major MSO (Multiple System Operator). Recently a reader contacted me and said that theft of service, especially uncapping cable modems via hacking, was still impacting his network. Not surprisingly, one vendor's CMTS was able to ward off the hacker's while another vendor's CMTS was unable to prevent the uncapping and subsequent theft of service. I will protect the vendor's identities because I believe that the CMTS is the first line of defense. Vendors have put into place very effective, CMTS specific techniques, such as Cisco's TFTP-Enforce which prohibits a cable modem from registering and coming on line if there is no matching TFTP traffic through the CMTS preceding the registration attempt. But often individual techniques are "hacked" (such as in the TFTP-Enforce bypass method found on hacker sites). What this indicates is that any reliance on a single point or method of hack-proofing your network WILL NOT WORK. You must implement a layered approach consisting of a number of CMTS, DHCP, TFTP and potentially SNMP and Kerbos related methods. The later would apply for MTAs and set top boxes. For now we will just focus on cable modems and the realm of CMTSs and DHCP/TFTP servers. Here are is the bare minimum of what you should be doing:

18 07, 2010

DOCSIS 3.0 Tutorial – Downstream Channel Bonding

Mia Colabrese2021-08-17T16:09:16-04:00July 18th, 2010|

Downstream Channel Bonding is perhaps the ball bearings of DOCSIS 3.0, enabling subscriber data speeds in excess of 160 Mbps (4 times that of previous DOCSIS versions). While conceptually simple, the principle of combining multiple downstream DOCSIS channels together to carry the same user data must have tight constraints in order to preserve the integrity of the data and have the data arrive at the correct subscriber's device and in sequence. This article will cover both the physical layer aspects and DOCSIS protocol aspects that enable channel bonding.

7 07, 2010

DOCSIS 3.0 Tutorial – Basic Protocol 1

Mia Colabrese2021-08-18T09:58:46-04:00July 7th, 2010|

Now that we have established the two primary architectures available in DOCSIS 3.0, I-CMTS and M-CMTS (thought hybrids do exist), and the hardware components of these architectures, it is time to delve into the protocol of the DOCSIS specifications that make up DOCSIS 3.0. There are five primary specifications that I will be drawing upon from here on out listed below and located in my document library and also on the CableLabs website.

1 07, 2010

DOCSIS 3.0 Tutorial – The EQAM

Mia Colabrese2021-08-17T15:58:05-04:00July 1st, 2010|

In my article on DOCSIS 3.0 M-CMTS architecture, I talked about the distributed nature of the CMTS with an M-CMTS core (the CPU of the system), a DOCSIS Timing Server, and an edge Quadrature Amplitude Modulator (EQAM). I am going to cover the EQAM in detail in this article because in the past couple of years, EQAM (also spelled eQAM) has rapidly become part of our vocabulary but its operation and value often go unappreciated. Further, in order to fully understand DOCSIS 3.0 operation, downstream channel bonding, and possible issue which may arise, a thorough understanding of the eQAM is critical.