RE: Built-in CSU capacity [7:60022]
Hi all, There is a rule called "75 percent rule". The router permits the user traffic to use only 75% of the link speed by default. The reamining part is leaved for the Layer2 keepalives, routing updates. You can override that value by entering "max-reserved-bandwidth" command under the interface. You should define what percent of the link you want to use as the command parameter. For example you can enter "max-reserved-bandwidth 95" to make your traffic use 95% of the link speed. Happy new year from Turkey. Best regards. Erdem Haseki -Original Message- From: Brett Johnson [mailto:[EMAIL PROTECTED]] Sent: Tuesday, December 31, 2002 6:09 PM To: [EMAIL PROTECTED] Subject: Built-in CSU capacity [7:60022] I am running a test on two 3660 routers with multiple CSU cards and cross-over t1 cables between the two routers. I am unable to exceed 75% capacity on any t1 no matter how much data I pump into the router. Below is a sample config for one of the interfaces, the rest are duplicates with different addresses: controller t1 1/0 framing esf clock source internal channel-group 0 timeslots 1-24 speed 64 interface serial 1/0:0 ip address 10.0.0.1 255.255.255.0 encapsulation ppp no ip route cache no ip mroute cache ip route 0.0.0.0 0.0.0.0 serial 1/0:0 Is there a way to use the full bandwidth (CEF, 7200 router with CEF and multiport CSU, external CSUs...) or is this a limit of the hardware and setup? Thank you, Brett Johnson Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60095&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
Re: Built-in CSU capacity [7:60022]
The Long and Winding Road wrote: > > this is beginning to sound like a job for TTCP > > Check out: > > http://www.netcraftsmen.net/id27.htm > > for information about this process. I know it is supported on > Cisco routers, > although I've not played with it much. > > -- > TANSTAAFL > "there ain't no such thing as a free lunch" > It is supported by mid and higher-end routers but Cisco recommends that you test *through* routers as opposed to testing from or between routers (as you know, traffic that originates at routers is handled a little differently than traffic that shows up at an interface). I've used it several times, which is one of the reasons I was hoping the original poster would provide some detail on how the testing was being conducted. Depending on the horsepower of the machine that you use to source ttcp, you can approach, and very likely exceed these days, 45 Mbps. The last time I used ttcp I was trying to simulate a saturated T3, but the machine didn't quite have it in it to crank out test data that fast. Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60068&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
Re: Built-in CSU capacity [7:60022]
this is beginning to sound like a job for TTCP Check out: http://www.netcraftsmen.net/id27.htm for information about this process. I know it is supported on Cisco routers, although I've not played with it much. -- TANSTAAFL "there ain't no such thing as a free lunch" ""Priscilla Oppenheimer"" wrote in message [EMAIL PROTECTED]">news:[EMAIL PROTECTED]... > Brett Johnson wrote: > > > > While I agree that upper-layer protocols do add overhead and we > > have to take > > into account the inter-frame gap, I still think I should be > > able to achieve > > greater then 75%. > > I was assuming we were counting all bytes, protocol headers included, in > order to get a network throughput measurement, rather than an application > throughput measurement. The only protocol overhead I was considering was the > ESF framing bits, which to be honest don't amount for much. In fact, if you > use 1.536 Mbps instead of 1.544 Mbps in the denominator, than you don't have > to worry about ESF. But the inter-frame gaps will still byte you, so to speak. > > > Additionally, doesn't the byte count from > > the snmp string > > include the upper-layer protocol bytes? I might be mistaken on > > that, but I > > thought I read that the byte count is accumulated with the > > total packet size > > including data and protocol headers. > > I'm not sure which byte count you're referring to or where you're measuring > it. But you will need to know what it counts in order to determine if you > should get better than 75%. > > What does the load on the router show? That might be a better measurement > for what you're doing? It counts all bytes. > > > > > What I take from the conversation so far is that I should be > > able to achieve > > greater throughput if there are no problems with windowing, mtu, > > retransmissions, Since these are test routers I am playing > > with, I will > > make sure there are no issues with them. These were the first > > 3660s I > > played with that have internal CSUs. My thought was using the > > multiple lines > > as one virtual pipe and load balancing through static routes > > was causing the > > problem. > > Multilinking and load balancing could affect the results. Stuff like that > takes processing time during which no bytes are being sent possibly. > > > > > WS---\ _T1_ > > WSSwitch---Router1_T1_Router2-Server > > WS---/_T1_ > > > > If I am able to optimize both packet size and window size what > > would be the > > theoretical max throughput I could expect across a T-1 line > > (not taking into > > account end-device issues or switch latency)? This is more for > > my own > > knowledge. > > Strictly speaking, your theoretical max throughput could be 1.536 Mbps. But > it's unlikely you'll achieve that, especially if your testing involves the > workstations, server, switches and router shown in your drawing. If you > could test just from the router, you might be more likely to achieve max > throughput. > > If your concern is what can you expect for your typical applications, then > you should test from the workstations, though. > > The only answer to the question about expected throughput is that you have > to measure it, check out the protocol behavior with an anlyzer or other > tools, do some optimzation if possible, and then do some more measurements. > Theory is useless in this case. It's not theory that you care about. It's > the real-world with all its computer messiness that you care about. > Throughput is a measurment. Don't confuse it with capacity or theoretical > capability. > > And, have a HAPPY NEW YEAR! > > Priscilla > > > > > Thanks for all the responses. > > > > Brett Johnson > > > > -Original Message- > > From: Priscilla Oppenheimer [mailto:[EMAIL PROTECTED]] > > Sent: Tuesday, December 31, 2002 1:10 PM > > To: [EMAIL PROTECTED] > > Subject: RE: Built-in CSU capacity [7:60022] > > > > > > Oops. Sorry for the null message. See below for what I really > > wanted to say. > > > > Priscilla Oppenheimer wrote: > > > > > > Brett Johnson wrote: > > > > > > > > I am running a test on two 3660 routers with multiple CSU > > > cards > > > > and > > > > cross-over t1 cables between the two routers. I am unable > > to > > >
RE: Built-in CSU capacity [7:60022]
Brett Johnson wrote: > > While I agree that upper-layer protocols do add overhead and we > have to take > into account the inter-frame gap, I still think I should be > able to achieve > greater then 75%. I was assuming we were counting all bytes, protocol headers included, in order to get a network throughput measurement, rather than an application throughput measurement. The only protocol overhead I was considering was the ESF framing bits, which to be honest don't amount for much. In fact, if you use 1.536 Mbps instead of 1.544 Mbps in the denominator, than you don't have to worry about ESF. But the inter-frame gaps will still byte you, so to speak. > Additionally, doesn't the byte count from > the snmp string > include the upper-layer protocol bytes? I might be mistaken on > that, but I > thought I read that the byte count is accumulated with the > total packet size > including data and protocol headers. I'm not sure which byte count you're referring to or where you're measuring it. But you will need to know what it counts in order to determine if you should get better than 75%. What does the load on the router show? That might be a better measurement for what you're doing? It counts all bytes. > > What I take from the conversation so far is that I should be > able to achieve > greater throughput if there are no problems with windowing, mtu, > retransmissions, Since these are test routers I am playing > with, I will > make sure there are no issues with them. These were the first > 3660s I > played with that have internal CSUs. My thought was using the > multiple lines > as one virtual pipe and load balancing through static routes > was causing the > problem. Multilinking and load balancing could affect the results. Stuff like that takes processing time during which no bytes are being sent possibly. > > WS---\_T1_ > WSSwitch---Router1_T1_Router2-Server > WS---/_T1_ > > If I am able to optimize both packet size and window size what > would be the > theoretical max throughput I could expect across a T-1 line > (not taking into > account end-device issues or switch latency)? This is more for > my own > knowledge. Strictly speaking, your theoretical max throughput could be 1.536 Mbps. But it's unlikely you'll achieve that, especially if your testing involves the workstations, server, switches and router shown in your drawing. If you could test just from the router, you might be more likely to achieve max throughput. If your concern is what can you expect for your typical applications, then you should test from the workstations, though. The only answer to the question about expected throughput is that you have to measure it, check out the protocol behavior with an anlyzer or other tools, do some optimzation if possible, and then do some more measurements. Theory is useless in this case. It's not theory that you care about. It's the real-world with all its computer messiness that you care about. Throughput is a measurment. Don't confuse it with capacity or theoretical capability. And, have a HAPPY NEW YEAR! Priscilla > > Thanks for all the responses. > > Brett Johnson > > -Original Message- > From: Priscilla Oppenheimer [mailto:[EMAIL PROTECTED]] > Sent: Tuesday, December 31, 2002 1:10 PM > To: [EMAIL PROTECTED] > Subject: RE: Built-in CSU capacity [7:60022] > > > Oops. Sorry for the null message. See below for what I really > wanted to say. > > Priscilla Oppenheimer wrote: > > > > Brett Johnson wrote: > > > > > > I am running a test on two 3660 routers with multiple CSU > > cards > > > and > > > cross-over t1 cables between the two routers. I am unable > to > > > exceed 75% > > > capacity on any t1 no matter how much data I pump into the > > > router. Below is > > > a sample config for one of the interfaces, the rest are > > > duplicates with > > > different addresses: > > > > > > > > > controller t1 1/0 > > > framing esf > > > clock source internal > > > channel-group 0 timeslots 1-24 speed 64 > > > > > > interface serial 1/0:0 > > > ip address 10.0.0.1 255.255.255.0 > > > encapsulation ppp > > > no ip route cache > > > no ip mroute cache > > > > > > ip route 0.0.0.0 0.0.0.0 serial 1/0:0 > > > > > > Is there a way to use the full bandwidth (CEF, 7200 router > > with > > > CEF and > > > multiport CSU, external CSUs...) or is thi
RE: Built-in CSU capacity [7:60022]
Brett Johnson wrote: > > While I agree that upper-layer protocols do add overhead and we > have to take > into account the inter-frame gap, I still think I should be > able to achieve > greater then 75%. Additionally, doesn't the byte count from > the snmp string > include the upper-layer protocol bytes? I might be mistaken on > that, but I > thought I read that the byte count is accumulated with the > total packet size > including data and protocol headers. > > What I take from the conversation so far is that I should be > able to achieve > greater throughput if there are no problems with windowing, mtu, > retransmissions, Since these are test routers I am playing > with, I will > make sure there are no issues with them. These were the first > 3660s I > played with that have internal CSUs. My thought was using the > multiple lines > as one virtual pipe and load balancing through static routes > was causing the > problem. > > WS---\_T1_ > WSSwitch---Router1_T1_Router2-Server > WS---/_T1_ > > If I am able to optimize both packet size and window size what > would be the > theoretical max throughput I could expect across a T-1 line > (not taking into > account end-device issues or switch latency)? This is more for > my own > knowledge. A T1 is capable of moving 192k bytes per second. However, you still haven't answered the question of how you are sourcing test data. Without knowing that, there isn't much more we can tell you. It's pretty easy to visualize two T1s between a pair of routers. It's impossible to visualize your test scenario without some help. > > Thanks for all the responses. > > Brett Johnson > Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60040&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
RE: Built-in CSU capacity [7:60022]
While I agree that upper-layer protocols do add overhead and we have to take into account the inter-frame gap, I still think I should be able to achieve greater then 75%. Additionally, doesn't the byte count from the snmp string include the upper-layer protocol bytes? I might be mistaken on that, but I thought I read that the byte count is accumulated with the total packet size including data and protocol headers. What I take from the conversation so far is that I should be able to achieve greater throughput if there are no problems with windowing, mtu, retransmissions, Since these are test routers I am playing with, I will make sure there are no issues with them. These were the first 3660s I played with that have internal CSUs. My thought was using the multiple lines as one virtual pipe and load balancing through static routes was causing the problem. WS---\ _T1_ WSSwitch---Router1_T1_Router2-Server WS---/_T1_ If I am able to optimize both packet size and window size what would be the theoretical max throughput I could expect across a T-1 line (not taking into account end-device issues or switch latency)? This is more for my own knowledge. Thanks for all the responses. Brett Johnson -Original Message- From: Priscilla Oppenheimer [mailto:[EMAIL PROTECTED]] Sent: Tuesday, December 31, 2002 1:10 PM To: [EMAIL PROTECTED] Subject: RE: Built-in CSU capacity [7:60022] Oops. Sorry for the null message. See below for what I really wanted to say. Priscilla Oppenheimer wrote: > > Brett Johnson wrote: > > > > I am running a test on two 3660 routers with multiple CSU > cards > > and > > cross-over t1 cables between the two routers. I am unable to > > exceed 75% > > capacity on any t1 no matter how much data I pump into the > > router. Below is > > a sample config for one of the interfaces, the rest are > > duplicates with > > different addresses: > > > > > > controller t1 1/0 > > framing esf > > clock source internal > > channel-group 0 timeslots 1-24 speed 64 > > > > interface serial 1/0:0 > > ip address 10.0.0.1 255.255.255.0 > > encapsulation ppp > > no ip route cache > > no ip mroute cache > > > > ip route 0.0.0.0 0.0.0.0 serial 1/0:0 > > > > Is there a way to use the full bandwidth (CEF, 7200 router > with > > CEF and > > multiport CSU, external CSUs...) or is this a limit of the > > hardware and > > setup? It's partly a limitation of the protocols. To start with, ESF uses 8,000 bps of your 1.544 Mbps for the framing bits. So you really only have 1.536 Mbps for data. Also, upper-layer protocols leave gaps between packets. Sure you can attempt to send incessant pings with as little gap as possible, but there will probably be some gap no matter what you do. Try to use frames as large as the MTU to avoid too many gaps. Don't go above the MTU or you'll force IP fragmentation which will worsen your results. Try increasing the interface MTU for best results. You could try testing with FTP instead of ping, but then you would want to make sure the TCP window is also maxed out so that the sender doesn't have to stop and wait for an ACK. With FTP, even more so than with Ping, you're going to be affected by OS and host hardware constraints, however. How quickly can the OS get data off the hard drive? How quickly can the other side flush the buffer? How big is the buffer? How quickly can it write to the hard drive and ACK? How long does it take to set up the control and data sessions (3-way handshake?) Is it using slow start. To maximize your numbers, start recording after the handshakes and slow start. Also, where are you doing the testing from? Are there intermediate devices between the end points that are adding some delay, such as switches and routers, or are you doing the testing right from the router? A faster router might help. (You asked whether using a 7200 might help and it might, but probably not much?) Anyway, we would have to know more about your testing setup to know why you're only getting 75%, but it's not too unexpected considering the typical testing setups we all tend to use. ___ Priscilla Oppenheimer www.troubleshootingnetworks.com www.priscilla.com > > > > Thank you, > > > > Brett Johnson Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60038&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
RE: Built-in CSU capacity [7:60022]
Oops. Sorry for the null message. See below for what I really wanted to say. Priscilla Oppenheimer wrote: > > Brett Johnson wrote: > > > > I am running a test on two 3660 routers with multiple CSU > cards > > and > > cross-over t1 cables between the two routers. I am unable to > > exceed 75% > > capacity on any t1 no matter how much data I pump into the > > router. Below is > > a sample config for one of the interfaces, the rest are > > duplicates with > > different addresses: > > > > > > controller t1 1/0 > > framing esf > > clock source internal > > channel-group 0 timeslots 1-24 speed 64 > > > > interface serial 1/0:0 > > ip address 10.0.0.1 255.255.255.0 > > encapsulation ppp > > no ip route cache > > no ip mroute cache > > > > ip route 0.0.0.0 0.0.0.0 serial 1/0:0 > > > > Is there a way to use the full bandwidth (CEF, 7200 router > with > > CEF and > > multiport CSU, external CSUs...) or is this a limit of the > > hardware and > > setup? It's partly a limitation of the protocols. To start with, ESF uses 8,000 bps of your 1.544 Mbps for the framing bits. So you really only have 1.536 Mbps for data. Also, upper-layer protocols leave gaps between packets. Sure you can attempt to send incessant pings with as little gap as possible, but there will probably be some gap no matter what you do. Try to use frames as large as the MTU to avoid too many gaps. Don't go above the MTU or you'll force IP fragmentation which will worsen your results. Try increasing the interface MTU for best results. You could try testing with FTP instead of ping, but then you would want to make sure the TCP window is also maxed out so that the sender doesn't have to stop and wait for an ACK. With FTP, even more so than with Ping, you're going to be affected by OS and host hardware constraints, however. How quickly can the OS get data off the hard drive? How quickly can the other side flush the buffer? How big is the buffer? How quickly can it write to the hard drive and ACK? How long does it take to set up the control and data sessions (3-way handshake?) Is it using slow start. To maximize your numbers, start recording after the handshakes and slow start. Also, where are you doing the testing from? Are there intermediate devices between the end points that are adding some delay, such as switches and routers, or are you doing the testing right from the router? A faster router might help. (You asked whether using a 7200 might help and it might, but probably not much?) Anyway, we would have to know more about your testing setup to know why you're only getting 75%, but it's not too unexpected considering the typical testing setups we all tend to use. ___ Priscilla Oppenheimer www.troubleshootingnetworks.com www.priscilla.com > > > > Thank you, > > > > Brett Johnson > > > > > > Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60034&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
RE: Built-in CSU capacity [7:60022]
Try again Priscilla. We didn't get that last post from you. Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60032&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
RE: Built-in CSU capacity [7:60022]
Brett Johnson wrote: > > I am running a test on two 3660 routers with multiple CSU cards > and > cross-over t1 cables between the two routers. I am unable to > exceed 75% > capacity on any t1 no matter how much data I pump into the > router. Below is > a sample config for one of the interfaces, the rest are > duplicates with > different addresses: > > > controller t1 1/0 > framing esf > clock source internal > channel-group 0 timeslots 1-24 speed 64 > > interface serial 1/0:0 > ip address 10.0.0.1 255.255.255.0 > encapsulation ppp > no ip route cache > no ip mroute cache > > ip route 0.0.0.0 0.0.0.0 serial 1/0:0 > > Is there a way to use the full bandwidth (CEF, 7200 router with > CEF and > multiport CSU, external CSUs...) or is this a limit of the > hardware and > setup? > > Thank you, > > Brett Johnson > > Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60031&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
RE: Built-in CSU capacity [7:60022]
Brett Johnson wrote: > > I am running a test on two 3660 routers with multiple CSU cards > and > cross-over t1 cables between the two routers. I am unable to > exceed 75% > capacity on any t1 no matter how much data I pump into the > router. How are you measuring this? The interface load? Also, what are you pushing at the routers? Are you sure your source is generating what you think it is? What size of data blocks are you dealing with? Are you seeing drops due to the congestion that you should be creating? > Below is > a sample config for one of the interfaces, the rest are > duplicates with > different addresses: > > > controller t1 1/0 > framing esf > clock source internal > channel-group 0 timeslots 1-24 speed 64 > > interface serial 1/0:0 > ip address 10.0.0.1 255.255.255.0 > encapsulation ppp > no ip route cache > no ip mroute cache > > ip route 0.0.0.0 0.0.0.0 serial 1/0:0 > > Is there a way to use the full bandwidth (CEF, 7200 router with > CEF and > multiport CSU, external CSUs...) or is this a limit of the > hardware and > setup? There will be some TCP/IP/PPP overhead, but 25% sounds high. > > Thank you, > > Brett Johnson > > Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60024&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]
Built-in CSU capacity [7:60022]
I am running a test on two 3660 routers with multiple CSU cards and cross-over t1 cables between the two routers. I am unable to exceed 75% capacity on any t1 no matter how much data I pump into the router. Below is a sample config for one of the interfaces, the rest are duplicates with different addresses: controller t1 1/0 framing esf clock source internal channel-group 0 timeslots 1-24 speed 64 interface serial 1/0:0 ip address 10.0.0.1 255.255.255.0 encapsulation ppp no ip route cache no ip mroute cache ip route 0.0.0.0 0.0.0.0 serial 1/0:0 Is there a way to use the full bandwidth (CEF, 7200 router with CEF and multiport CSU, external CSUs...) or is this a limit of the hardware and setup? Thank you, Brett Johnson Message Posted at: http://www.groupstudy.com/form/read.php?f=7&i=60022&t=60022 -- FAQ, list archives, and subscription info: http://www.groupstudy.com/list/cisco.html Report misconduct and Nondisclosure violations to [EMAIL PROTECTED]