Help me with conflicting results of this test

[cholla]

Hi all: I have seen others post part of this test.I find some conflicting results in it.

first are the outbound & inbound tests download & upload.If they are then why do I get a RTT of 716 ms at this speed 121.24Kb/s.Why does it report this Cable modem/DSL/T1 link found when I have dialup.What does this mean:This connection is network limited 99.96% of the time.Can anyone explain the checking for mismatch results near the bottom or any of the checking for results.or are these results or just telling me what the test is " checking for" & not results of this specific test.The "checking for" sections are over my head.So if anyone can explain them in more simple terms I would appreciate it. Thanks Cholla

PS CA3LE I tried the spell check on this it has a small problem it will not go on unless you make the first correction it finds it did not like RTT in this post otherwise I could use its help,sometimes.

WEB100 Enabled Statistics:

Checking for Middleboxes . . . . . . . . . . . . . . . . . .  Done

running 10s outbound test (client to server) . . . . . 121.24Kb/s

running 10s inbound test (server to client) . . . . . . 112.99kb/s

------  Client System Details  ------

OS data: Name = Windows 98, Architecture = x86, Version = 4.10

Java data: Vendor = Sun Microsystems Inc., Version = 1.4.2_06

------  Web100 Detailed Analysis  ------

Cable modem/DSL/T1 lin

k found.Link set to Full Duplex mode

Information: throughput is limited by other network traffic.

Good network cable(s) found

Normal duplex operation found.

Web100 reports the Round trip time = 716.0 msec; the Packet size = 1460 Bytes; and

No packet loss was observed.

This connection is network limited 99.96% of the time.

  Contact your local network administrator to report a network problem

    Web100 reports TCP negotiated the optional Performance Settings to:

RFC 2018 Selective Acknowledgment: ON

RFC 896 Nagle Algorithm: ON

RFC 3168 Explicit Congestion Notification: OFF

RFC 1323 Time Stamping: OFF

RFC 1323 Window Scaling: ON

Packet size is preserved End-to-End

Server IP addresses are preserved End-to-End

Client IP addresses are preserved End-to-End

WEB100 Kernel Variables:

Client: localhost/127.0.0.1

AckPktsIn: 50

AckPktsOut: 0

BytesRetrans: 0

CongAvoid: 49

CongestionOverCount: 0

CongestionSignals: 0

CountRTT: 50

CurCwnd: 14600

CurMSS: 1460

CurRTO: 1430

CurRwinRcvd: 268640

CurRwinSent: 5840

CurSsthresh: 2920

DSACKDups: 0

DataBytesIn: 0

DataBytesOut: 157680

DataPktsIn: 0

DataPktsOut: 108

DupAcksIn: 0

ECNEnabled: 0

FastRetran: 0

MaxCwnd: 14600

MaxMSS: 1460

MaxRTO: 1520

MaxRTT: 960

MaxRwinRcvd: 268640

MaxRwinSent: 5840

MaxSsthresh: 2920

MinMSS: 1460

MinRTO: 910

MinRTT: 500

MinRwinRcvd: 33580

MinRwinSent: 5840

NagleEnabled: 1

OtherReductions: 0

PktsIn: 50

PktsOut: 108

PktsRetrans: 0

X_Rcvbuf: 103424

SACKEnabled: 3

SACKsRcvd: 0

SendStall: 0

SlowStart: 1

SampleRTT: 950

SmoothedRTT: 910

X_Sndbuf: 103424

SndLimTimeRwin: 0

SndLimTimeCwnd: 10796501

SndLimTimeSender: 3535

SndLimTransRwin: 0

SndLimTransCwnd: 1

SndLimTransSender: 1

SndLimBytesRwin: 0

SndLimBytesCwnd: 157680

SndLimBytesSender: 0

SubsequentTimeouts: 0

SumRTT: 35800

Timeouts: 0

TimestampsEnabled: 0

WinScaleRcvd: 3

WinScaleSent: 7

DupAcksOut: 0

StartTimeUsec: 956012

Duration: 10818741

c2sData: 2

c2sAck: 2

s2cData: 9

s2cAck: 2

Checking for mismatch condition

(cwndtime > .3) [0.99>.3], (MaxSsthresh > 0) [2920>0],

(PktsRetrans/sec > 2) [0>2], (estimate > 2) [15.55>2]

Checking for mismatch on uplink

(speed > 50 [0.11>50], (xmitspeed < 5) [0.12<5]

(rwintime > .9) [0>.9], (loss < .01) [1.0E<.01]

Checking for excessive errors condition

(loss/sec > .15) [1.0E>.15], (cwndtime > .6) [0.99>.6],

(loss < .01) [1.0E<.01], (MaxSsthresh > 0) [2920>0]

Checking for 10 Mbps link

(speed < 9.5) [0.11<9.5], (speed > 3.0) [0.11>3.0]

(xmitspeed < 9.5) [0.12<9.5] (loss < .01) [1.0E<.01], (link > 0) [100>0]

Checking for Wireless link

(sendtime = 0) [3.27=0], (speed < 5) [0.11<5]

(Estimate > 50 [15.55>50], (Rwintime > 90) [0>.90]

(RwinTrans/CwndTrans = 1) [0/1=1], (link > 0) [100>0]

Checking for DSL/Cable Modem link

(speed < 2) [0.11<2], (SndLimTransSender = 0) [1=0]

(SendTime = 0) [3.273137237690689E-4=0], (link > 0) [100>0]

Checking for half-duplex condition

(rwintime > .95) [0>.95], (RwinTrans/sec > 30) [0>30],

(SenderTrans/sec > 30) [0.10>30], OR (link <= 10) [100<=10]

Checking for congestion

(cwndtime > .02) [0.99>.02], (mismatch = 0) [0=0]

(MaxSsthresh > 0) [2920>0]

bw = 15.55 based on packet size = 11Kbits, RTT = 716.0msec, and loss = 1.0E-6

The theoretical network limit is 15.55 Mbps

The transmit buffer (101.0 KByte) limits the application to 1.10 Mbps

Your receive buffer (262.0 KByte) limits the application to 2.86 Mbps

The network based flow control limits the application to 0.15 Mbps

Client Data reports link is 'T1', Client Acks report link is 'T1'

Server Data reports link is '10 Gig', Server Acks report link is 'T1'

[xs1]

The smallest scores are called "cable/dsl" . Theirs nothing smaller it can be called in the scripting. If you were faster, it would bump you up to a " ethernet 10mb + " stature. Faster then that its 100mb , etc. SO even if you are on dialup the only thing it can call you is "cable/dsl" since its made to mesure broadband connections. Network limited 99 % means that your ISP has you cap controlled, and not fully burstable 10/10 or 100/100 like vanburen (that is IF you actualy were on broadband).

"Information: throughput is limited by other network traffic."

[cholla]

.s1: You awnsered about the dsl/cable part now I know why it reports & about the cap

thats what I thought it might mean my isp didn't admit that when I asked their tech.About the"Information: throughput is limited by other network traffic." I did know that  just not what "This connection is network limited 99.96% of the time"  meant for sure until you explained it.I thought the RTT seemed high if the outbound & inbound actually are download & upload tests & the speed reported by them is correct. I am still not sure about this it would seem to indicate high latency.My isp blocks ping & tracert so I can't test this way . Cholla

[VanBuren]

the test probl measured RTT when you was uploading/downloading, thats why its so high

this

The theoretical network limit is 15.55 Mbps

The transmit buffer (101.0 KByte) limits the application to 1.10 Mbps

Your receive buffer (262.0 KByte) limits the application to 2.86 Mbps

The network based flow control limits the application to 0.15 Mbps

is based on the formula below

((Maximum Bandwidth x Maximum Latency) / 8 ) / MSS =  multiplyer  ( round up to the nearest even whole number)

multiplyer x MSS = optimal RWIN

so a  connection with a 1500 download cap with a maximum latency of 300 ms and a MSS of 1460

(1500 x 300) / 8 = 56250 / 1460 = Multiplyer = 39

39 x 1460 = 56940 as Optimal RWIN

if you reverse that and know RWIN and latency and MSS you can calculate Bandwidth and thats what its doing

VanBuren

[cholla]

Hi VanBuran: thanks for the formula I copied it & put it in my documents file.Unless I am missing something the test did not give me theMaximum latency or the download cap.I have to have one of these to reverse work the formula.I also would like to know if this actually is an upload & download test .If it is is it so short it doesn't really tell you much.I guess "10s inbound test (server to client)" would be 10 seconds long & would be the download test. They just phrase it oddly.What do you think? or one of the other members I would like your imput too. Thanks Cholla

[VanBuren]

Unless I am missing something the test did not give me theMaximum latency

Web100 reports the Round trip time = 716.0 msec 

or the download cap.I have to have one of these to reverse work the formula

and you need a buffersize  MaxRwinRcvd: 268640, MinRwinRcvd: 33580

now you have the values you need to calculate this...

Your receive buffer (262.0 KByte) limits the application to 2.86 Mbps

As you can see they say you have a receivebuffer of 262 KByte, that i dont think is fully accurate, cos the test reporting MaxRwinRcvd: 268640.

anyway lets put these things in the formula

multiplyer x MSS = optimal RWIN

multiplyer = (optimal RWIN / MSS)

multiplyer = 262000 / 1460 = 179

((Maximum Bandwidth x Maximum Latency) / 8 ) / MSS =  multiplyer

((Maximum Bandwidth x Maximum Latency) / 8 ) = multiplyer x MSS

((Maximum Bandwidth x 716) / 8 ) = 179 x 1460

Maximum Bandwidth x 89,5 = 261340

Maximum Bandwidth = 261340 / 89,5  = 2920 Kbps

pretty close compared to them  Your receive buffer (262.0 KByte) limits the application to 2.86 Mbps

They probl just rounded the multiplyer diffrent from me......

VanBuren

[cholla]

Thank you VanBuran: I guess I just needed the extra detail I did not  think of RTT as the total latency for some reason.The figure you came up with 2920kbps matches this reading in the test I think would be this the number matches they just didn't put the kbps after it.the reading is MaxSsthresh & CurSsthresh both have 2920 as their reading.Do you think this is their term for maximum bandwidth or the reading is just the same number? Anyway I think I learned something thanks VanBuran. Cholla

[VanBuren]

no problem Cholla

i have no idea what MaxSsthresh & CurSsthresh stands for 

VanBuren

[MICROWAVE]

no problem Cholla

i have no idea what MaxSsthresh & CurSsthresh stands for

[VanBuren]

Maximum Slowstart Threshold Category, is its meaning if that helps...    and the other is Current.........

Microwave

dern thats above my knowledge 

that must be a bad thing, i want a fast start 

VanBuren 

[MICROWAVE]

dern thats above my knowledge

[VanBuren]

[xs1]

Maximum Slowstart Threshold Category, is its meaning if that helps... and the other is Current.........

Microwave

Looks like someones trying to get in the super geek catigory with us now O_O

[cholla]

Hi Microwave: Thanks I just asked because they matched what VanBuran came up with for the maximum bandwidth.At least they were both 2920.A lot of the readings of the test above are beyond my knowlege.  Cholla

[MICROWAVE]

Looks like someones trying to get in the super geek catigory with us now O_O

Trying? ya mean I haven been accepted to the super geek club yet??     

Microwave