This variable determines BERT pattern to be transmitted
on the interface identified by dsx3bertLine or dsx3bertPort.
Bit error measurements are widely used to assess the
performance of a digital transmission equipment. Precise
error measurement requires that the bit pattern transmitted
is known before hand. During BER testing a known pattern is
transmitted on a interface. The pattern received on the
receive side is checked for bit errors. In order to measure
the performance of digital line under real condition
this patterns should also simulate real traffic as closely
as possible. There are two categories of test patterns that
can be generated by a BERT equipment: repetitive and
pseudo-random. The former test patterns are zeroes or ones
or alternating zeroes and ones; the latter patterns are
exponential numbers and conform to CCITT/ITU O.151, O.153.
There are different patterns for different interface speeds.
This object allows the user to configure this BERT patterns.
The supported values are :
Repetitive Patterns
allOnes(1): All Ones(Continuous Marks). This is repeating
pattern of ones(...1111...). This provides
testing of maximum power level requirements.
The all one pattern test causes the repeater
to consume the maximum amount of power.
If there is insufficient DC span power then the
repeater may begin to fail.
Typically this pattern is used for a simple
continuity check. It may also be used to detect
the presence of unwanted loop in the network.
allZeros(2): All Zeroes(Continuous spaces). This is
repeating pattern of zeros(...000...).
The use of this pattern is to test and verify
that the ones density policing mechanism is
functioning properly. This pattern must be
used in circuits optioned for B8ZS.
alternateOneZero(3): Alternate one/zero pattern(..1010..).
This pattern produces a 50% ones density. It is
used to stress the repeater's DC power
consumption.
doubleOneZero(4): Double alternate one/zero(..10101010..).
threeInTwentyFour(5): This is a 24 bit pattern which
contains 3 ones. The largest string of consecutive
zeros is fifteen.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose. This pattern covers both the minimum ones
density and the maximum number of consecutive zeros.
oneInSixteen(6): N repetitive pattern, 1 in 16.
oneInEight(7): This is an eight bit pattern which contains
single one.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose.
This pattern is used to verify frame synchronization
by providing the minimum acceptable pulse density.
oneInFour(8): This pattern is standard loop up remote code.
Typically it is used when the loop up remote test
fails to place the remote system into loopback.
sfLoopUp (9): D4/SF Loopback activate/up
Valid only for T1 line.
sfLoopDown(10): D4/SF Loopback deactivate/down
Valid only for T1 line.
threeBit (11): Repetitive patterns of 3 bits in length.
fourBit (12): Repetitive patterns of 4 bits in length.
fiveBit (13): Repetitive patterns of 5 bits in length.
sixBit (14): Repetitive patterns of 6 bits in length.
sevenBit (15): Repetitive patterns of 7 bits in length.
fracT1LoopUp(16): Fractional T1 Loopback activate/up.
fracT1LoopDown(17): Fractional T1 Loopback deactivate/down.
nineBit (18): Repetitive patterns of 9 bits in length.
tenBit (19): Repetitive patterns of 10 bits in length.
elevenBit (20): Repetitive patterns of 11 bits in length.
fifteenBit (21): Repetitive patterns of 15 bits in length.
seventeenBit (22): Repetitive patterns of 17 bits in length.
eighteenBit (23): Repetitive patterns of 18 bits in length.
twentyBit (24): Repetitive patterns of 20 bits in length.
twentyBitQRSS(25): 20 bits of Quasi Random Signal Source.
twentyOneBit (26): Repetitive patterns of 21 bits in length.
twentyTwoBit (27): Repetitive patterns of 22 bits in length.
twentyThreeBit (28): Repetitive patterns of 23 bits in length.
twentyFiveBit (29): Repetitive patterns of 25 bits in length.
twentyEightBit (30): Repetitive patterns of 28 bits in length.
twentyNineBit (31): Repetitive patterns of 29 bits in length.
thirtyOneBit (32): Repetitive patterns of 32 bits in length.
thirtyTwo (33): Repetitive patterns of 33 bits in length.
Parsed from file CISCO-MGX82XX-DSX3-BERT-MIB.mib
Module: CISCO-MGX82XX-DSX3-BERT-MIB
This variable determines BERT pattern to be transmitted
on the interface identified by dsx3bertLine or dsx3bertPort.
Bit error measurements are widely used to assess the
performance of a digital transmission equipment. Precise
error measurement requires that the bit pattern transmitted
is known before hand. During BER testing a known pattern is
transmitted on a interface. The pattern received on the
receive side is checked for bit errors. In order to measure
the performance of digital line under real condition
this patterns should also simulate real traffic as closely
as possible. There are two categories of test patterns that
can be generated by a BERT equipment: repetitive and
pseudo-random. The former test patterns are zeroes or ones
or alternating zeroes and ones; the latter patterns are
exponential numbers and conform to CCITT/ITU O.151, O.153.
There are different patterns for different interface speeds.
This object allows the user to configure this BERT patterns.
The supported values are :
Repetitive Patterns
allOnes(1): All Ones(Continuous Marks). This is repeating
pattern of ones(...1111...). This provides
testing of maximum power level requirements.
The all one pattern test causes the repeater
to consume the maximum amount of power.
If there is insufficient DC span power then the
repeater may begin to fail.
Typically this pattern is used for a simple
continuity check. It may also be used to detect
the presence of unwanted loop in the network.
allZeros(2): All Zeroes(Continuous spaces). This is
repeating pattern of zeros(...000...).
The use of this pattern is to test and verify
that the ones density policing mechanism is
functioning properly. This pattern must be
used in circuits optioned for B8ZS.
alternateOneZero(3): Alternate one/zero pattern(..1010..).
This pattern produces a 50% ones density. It is
used to stress the repeater's DC power
consumption.
doubleOneZero(4): Double alternate one/zero(..10101010..).
threeInTwentyFour(5): This is a 24 bit pattern which
contains 3 ones. The largest string of consecutive
zeros is fifteen.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose. This pattern covers both the minimum ones
density and the maximum number of consecutive zeros.
oneInSixteen(6): N repetitive pattern, 1 in 16.
oneInEight(7): This is an eight bit pattern which contains
single one.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose.
This pattern is used to verify frame synchronization
by providing the minimum acceptable pulse density.
oneInFour(8): This pattern is standard loop up remote code.
Typically it is used when the loop up remote test
fails to place the remote system into loopback.
sfLoopUp (9): D4/SF Loopback activate/up
Valid only for T1 line.
sfLoopDown(10): D4/SF Loopback deactivate/down
Valid only for T1 line.
threeBit (11): Repetitive patterns of 3 bits in length.
fourBit (12): Repetitive patterns of 4 bits in length.
fiveBit (13): Repetitive patterns of 5 bits in length.
sixBit (14): Repetitive patterns of 6 bits in length.
sevenBit (15): Repetitive patterns of 7 bits in length.
fracT1LoopUp(16): Fractional T1 Loopback activate/up.
fracT1LoopDown(17): Fractional T1 Loopback deactivate/down.
nineBit (18): Repetitive patterns of 9 bits in length.
tenBit (19): Repetitive patterns of 10 bits in length.
elevenBit (20): Repetitive patterns of 11 bits in length.
fifteenBit (21): Repetitive patterns of 15 bits in length.
seventeenBit (22): Repetitive patterns of 17 bits in length.
eighteenBit (23): Repetitive patterns of 18 bits in length.
twentyBit (24): Repetitive patterns of 20 bits in length.
twentyBitQRSS(25): 20 bits of Quasi Random Signal Source.
twentyOneBit (26): Repetitive patterns of 21 bits in length.
twentyTwoBit (27): Repetitive patterns of 22 bits in length.
twentyThreeBit (28): Repetitive patterns of 23 bits in length.
twentyFiveBit (29): Repetitive patterns of 25 bits in length.
twentyEightBit (30): Repetitive patterns of 28 bits in length.
twentyNineBit (31): Repetitive patterns of 29 bits in length.
thirtyOneBit (32): Repetitive patterns of 32 bits in length.
thirtyTwo (33): Repetitive patterns of 33 bits in length.
This variable determines BERT pattern to be transmitted
on the interface identified by dsx3bertLine or dsx3bertPort.
Bit error measurements are widely used to assess the
performance of a digital transmission equipment. Precise
error measurement requires that the bit pattern transmitted
is known before hand. During BER testing a known pattern is
transmitted on a interface. The pattern received on the
receive side is checked for bit errors. In order to measure
the performance of digital line under real condition
this patterns should also simulate real traffic as closely
as possible. There are two categories of test patterns that
can be generated by a BERT equipment: repetitive and
pseudo-random. The former test patterns are zeroes or ones
or alternating zeroes and ones; the latter patterns are
exponential numbers and conform to CCITT/ITU O.151, O.153.
There are different patterns for different interface speeds.
This object allows the user to configure this BERT patterns.
The supported values are :
Repetitive Patterns
allOnes(1): All Ones(Continuous Marks). This is repeating
pattern of ones(...1111...). This provides
testing of maximum power level requirements.
The all one pattern test causes the repeater
to consume the maximum amount of power.
If there is insufficient DC span power then the
repeater may begin to fail.
Typically this pattern is used for a simple
continuity check. It may also be used to detect
the presence of unwanted loop in the network.
allZeros(2): All Zeroes(Continuous spaces). This is
repeating pattern of zeros(...000...).
The use of this pattern is to test and verify
that the ones density policing mechanism is
functioning properly. This pattern must be
used in circuits optioned for B8ZS.
alternateOneZero(3): Alternate one/zero pattern(..1010..).
This pattern produces a 50% ones density. It is
used to stress the repeater's DC power
consumption.
doubleOneZero(4): Double alternate one/zero(..10101010..).
threeInTwentyFour(5): This is a 24 bit pattern which
contains 3 ones. The largest string of consecutive
zeros is fifteen.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose. This pattern covers both the minimum ones
density and the maximum number of consecutive zeros.
oneInSixteen(6): N repetitive pattern, 1 in 16.
oneInEight(7): This is an eight bit pattern which contains
single one.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose.
This pattern is used to verify frame synchronization
by providing the minimum acceptable pulse density.
oneInFour(8): This pattern is standard loop up remote code.
Typically it is used when the loop up remote test
fails to place the remote system into loopback.
sfLoopUp (9): D4/SF Loopback activate/up
Valid only for T1 line.
sfLoopDown(10): D4/SF Loopback deactivate/down
Valid only for T1 line.
threeBit (11): Repetitive patterns of 3 bits in length.
fourBit (12): Repetitive patterns of 4 bits in length.
fiveBit (13): Repetitive patterns of 5 bits in length.
sixBit (14): Repetitive patterns of 6 bits in length.
sevenBit (15): Repetitive patterns of 7 bits in length.
fracT1LoopUp(16): Fractional T1 Loopback activate/up.
fracT1LoopDown(17): Fractional T1 Loopback deactivate/down.
nineBit (18): Repetitive patterns of 9 bits in length.
tenBit (19): Repetitive patterns of 10 bits in length.
elevenBit (20): Repetitive patterns of 11 bits in length.
fifteenBit (21): Repetitive patterns of 15 bits in length.
seventeenBit (22): Repetitive patterns of 17 bits in length.
eighteenBit (23): Repetitive patterns of 18 bits in length.
twentyBit (24): Repetitive patterns of 20 bits in length.
twentyBitQRSS(25): 20 bits of Quasi Random Signal Source.
twentyOneBit (26): Repetitive patterns of 21 bits in length.
twentyTwoBit (27): Repetitive patterns of 22 bits in length.
twentyThreeBit (28): Repetitive patterns of 23 bits in length.
twentyFiveBit (29): Repetitive patterns of 25 bits in length.
twentyEightBit (30): Repetitive patterns of 28 bits in length.
twentyNineBit (31): Repetitive patterns of 29 bits in length.
thirtyOneBit (32): Repetitive patterns of 32 bits in length.
thirtyTwo (33): Repetitive patterns of 33 bits in length.
Parsed from file CISCO-MGX82XX-DSX3-BERT-MIB.my.txt
Company: None
Module: CISCO-MGX82XX-DSX3-BERT-MIB
This variable determines BERT pattern to be transmitted
on the interface identified by dsx3bertLine or dsx3bertPort.
Bit error measurements are widely used to assess the
performance of a digital transmission equipment. Precise
error measurement requires that the bit pattern transmitted
is known before hand. During BER testing a known pattern is
transmitted on a interface. The pattern received on the
receive side is checked for bit errors. In order to measure
the performance of digital line under real condition
this patterns should also simulate real traffic as closely
as possible. There are two categories of test patterns that
can be generated by a BERT equipment: repetitive and
pseudo-random. The former test patterns are zeroes or ones
or alternating zeroes and ones; the latter patterns are
exponential numbers and conform to CCITT/ITU O.151, O.153.
There are different patterns for different interface speeds.
This object allows the user to configure this BERT patterns.
The supported values are :
Repetitive Patterns
allOnes(1): All Ones(Continuous Marks). This is repeating
pattern of ones(...1111...). This provides
testing of maximum power level requirements.
The all one pattern test causes the repeater
to consume the maximum amount of power.
If there is insufficient DC span power then the
repeater may begin to fail.
Typically this pattern is used for a simple
continuity check. It may also be used to detect
the presence of unwanted loop in the network.
allZeros(2): All Zeroes(Continuous spaces). This is
repeating pattern of zeros(...000...).
The use of this pattern is to test and verify
that the ones density policing mechanism is
functioning properly. This pattern must be
used in circuits optioned for B8ZS.
alternateOneZero(3): Alternate one/zero pattern(..1010..).
This pattern produces a 50% ones density. It is
used to stress the repeater's DC power
consumption.
doubleOneZero(4): Double alternate one/zero(..10101010..).
threeInTwentyFour(5): This is a 24 bit pattern which
contains 3 ones. The largest string of consecutive
zeros is fifteen.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose. This pattern covers both the minimum ones
density and the maximum number of consecutive zeros.
oneInSixteen(6): N repetitive pattern, 1 in 16.
oneInEight(7): This is an eight bit pattern which contains
single one.
This pattern is used primarily to test timing(clock)
recovery and may be used framed or unframed for that
purpose.
This pattern is used to verify frame synchronization
by providing the minimum acceptable pulse density.
oneInFour(8): This pattern is standard loop up remote code.
Typically it is used when the loop up remote test
fails to place the remote system into loopback.
sfLoopUp (9): D4/SF Loopback activate/up
Valid only for T1 line.
sfLoopDown(10): D4/SF Loopback deactivate/down
Valid only for T1 line.
threeBit (11): Repetitive patterns of 3 bits in length.
fourBit (12): Repetitive patterns of 4 bits in length.
fiveBit (13): Repetitive patterns of 5 bits in length.
sixBit (14): Repetitive patterns of 6 bits in length.
sevenBit (15): Repetitive patterns of 7 bits in length.
fracT1LoopUp(16): Fractional T1 Loopback activate/up.
fracT1LoopDown(17): Fractional T1 Loopback deactivate/down.
nineBit (18): Repetitive patterns of 9 bits in length.
tenBit (19): Repetitive patterns of 10 bits in length.
elevenBit (20): Repetitive patterns of 11 bits in length.
fifteenBit (21): Repetitive patterns of 15 bits in length.
seventeenBit (22): Repetitive patterns of 17 bits in length.
eighteenBit (23): Repetitive patterns of 18 bits in length.
twentyBit (24): Repetitive patterns of 20 bits in length.
twentyBitQRSS(25): 20 bits of Quasi Random Signal Source.
twentyOneBit (26): Repetitive patterns of 21 bits in length.
twentyTwoBit (27): Repetitive patterns of 22 bits in length.
twentyThreeBit (28): Repetitive patterns of 23 bits in length.
twentyFiveBit (29): Repetitive patterns of 25 bits in length.
twentyEightBit (30): Repetitive patterns of 28 bits in length.
twentyNineBit (31): Repetitive patterns of 29 bits in length.
thirtyOneBit (32): Repetitive patterns of 32 bits in length.
thirtyTwo (33): Repetitive patterns of 33 bits in length.
dsx3bertPattern OBJECT-TYPE SYNTAX INTEGER { allOnes (1), allZeros (2), alternateOneZero (3), doubleOneZero (4), threeInTwentyFour (5), oneInSixteen (6), oneInEight (7), oneInFour (8), sfLoopUp (9), sfLoopDown (10), threeBit (11), fourBit (12), fiveBit (13), sixBit (14), sevenBit (15), fracT1LoopUp (16), fracT1LoopDown (17), nineBit (18), tenBit (19), elevenBit (20), fifteenBit (21), seventeenBit (22), eighteenBit (23), twentyBit (24), twentyBitQRSS (25), twentyOneBit (26), twentyTwoBit (27), twentyThreeBit (28), twentyFiveBit (29), twentyEightBit (30), twentyNineBit (31), thirtyOneBit (32), thirtyTwo (33) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable determines BERT pattern to be transmitted on the interface identified by dsx3bertLine or dsx3bertPort. Bit error measurements are widely used to assess the performance of a digital transmission equipment. Precise error measurement requires that the bit pattern transmitted is known before hand. During BER testing a known pattern is transmitted on a interface. The pattern received on the receive side is checked for bit errors. In order to measure the performance of digital line under real condition this patterns should also simulate real traffic as closely as possible. There are two categories of test patterns that can be generated by a BERT equipment: repetitive and pseudo-random. The former test patterns are zeroes or ones or alternating zeroes and ones; the latter patterns are exponential numbers and conform to CCITT/ITU O.151, O.153. There are different patterns for different interface speeds. This object allows the user to configure this BERT patterns. The supported values are : Repetitive Patterns allOnes(1): All Ones(Continuous Marks). This is repeating pattern of ones(...1111...). This provides testing of maximum power level requirements. The all one pattern test causes the repeater to consume the maximum amount of power. If there is insufficient DC span power then the repeater may begin to fail. Typically this pattern is used for a simple continuity check. It may also be used to detect the presence of unwanted loop in the network. allZeros(2): All Zeroes(Continuous spaces). This is repeating pattern of zeros(...000...). The use of this pattern is to test and verify that the ones density policing mechanism is functioning properly. This pattern must be used in circuits optioned for B8ZS. alternateOneZero(3): Alternate one/zero pattern(..1010..). This pattern produces a 50% ones density. It is used to stress the repeater's DC power consumption. doubleOneZero(4): Double alternate one/zero(..10101010..). threeInTwentyFour(5): This is a 24 bit pattern which contains 3 ones. The largest string of consecutive zeros is fifteen. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern covers both the minimum ones density and the maximum number of consecutive zeros. oneInSixteen(6): N repetitive pattern, 1 in 16. oneInEight(7): This is an eight bit pattern which contains single one. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern is used to verify frame synchronization by providing the minimum acceptable pulse density. oneInFour(8): This pattern is standard loop up remote code. Typically it is used when the loop up remote test fails to place the remote system into loopback. sfLoopUp (9): D4/SF Loopback activate/up Valid only for T1 line. sfLoopDown(10): D4/SF Loopback deactivate/down Valid only for T1 line. threeBit (11): Repetitive patterns of 3 bits in length. fourBit (12): Repetitive patterns of 4 bits in length. fiveBit (13): Repetitive patterns of 5 bits in length. sixBit (14): Repetitive patterns of 6 bits in length. sevenBit (15): Repetitive patterns of 7 bits in length. fracT1LoopUp(16): Fractional T1 Loopback activate/up. fracT1LoopDown(17): Fractional T1 Loopback deactivate/down. nineBit (18): Repetitive patterns of 9 bits in length. tenBit (19): Repetitive patterns of 10 bits in length. elevenBit (20): Repetitive patterns of 11 bits in length. fifteenBit (21): Repetitive patterns of 15 bits in length. seventeenBit (22): Repetitive patterns of 17 bits in length. eighteenBit (23): Repetitive patterns of 18 bits in length. twentyBit (24): Repetitive patterns of 20 bits in length. twentyBitQRSS(25): 20 bits of Quasi Random Signal Source. twentyOneBit (26): Repetitive patterns of 21 bits in length. twentyTwoBit (27): Repetitive patterns of 22 bits in length. twentyThreeBit (28): Repetitive patterns of 23 bits in length. twentyFiveBit (29): Repetitive patterns of 25 bits in length. twentyEightBit (30): Repetitive patterns of 28 bits in length. twentyNineBit (31): Repetitive patterns of 29 bits in length. thirtyOneBit (32): Repetitive patterns of 32 bits in length. thirtyTwo (33): Repetitive patterns of 33 bits in length. " REFERENCE "CCITT/ITU O.150, O.151, O.152, O.153, O.161 Standards." ::= { dsx3bert 10 }
dsx3bertPattern OBJECT-TYPE SYNTAX INTEGER { allOnes(1), allZeros(2), alternateOneZero(3), doubleOneZero(4), threeInTwentyFour(5), oneInSixteen(6), oneInEight(7), oneInFour(8), sfLoopUp(9), sfLoopDown(10), threeBit(11), fourBit(12), fiveBit(13), sixBit(14), sevenBit(15), fracT1LoopUp(16), fracT1LoopDown(17), nineBit(18), tenBit(19), elevenBit(20), fifteenBit(21), seventeenBit(22), eighteenBit(23), twentyBit(24), twentyBitQRSS(25), twentyOneBit(26), twentyTwoBit(27), twentyThreeBit(28), twentyFiveBit(29), twentyEightBit(30), twentyNineBit(31), thirtyOneBit(32), thirtyTwo(33) } ACCESS read-write STATUS mandatory DESCRIPTION "This variable determines BERT pattern to be transmitted on the interface identified by dsx3bertLine or dsx3bertPort. Bit error measurements are widely used to assess the performance of a digital transmission equipment. Precise error measurement requires that the bit pattern transmitted is known before hand. During BER testing a known pattern is transmitted on a interface. The pattern received on the receive side is checked for bit errors. In order to measure the performance of digital line under real condition this patterns should also simulate real traffic as closely as possible. There are two categories of test patterns that can be generated by a BERT equipment: repetitive and pseudo-random. The former test patterns are zeroes or ones or alternating zeroes and ones; the latter patterns are exponential numbers and conform to CCITT/ITU O.151, O.153. There are different patterns for different interface speeds. This object allows the user to configure this BERT patterns. The supported values are : Repetitive Patterns allOnes(1): All Ones(Continuous Marks). This is repeating pattern of ones(...1111...). This provides testing of maximum power level requirements. The all one pattern test causes the repeater to consume the maximum amount of power. If there is insufficient DC span power then the repeater may begin to fail. Typically this pattern is used for a simple continuity check. It may also be used to detect the presence of unwanted loop in the network. allZeros(2): All Zeroes(Continuous spaces). This is repeating pattern of zeros(...000...). The use of this pattern is to test and verify that the ones density policing mechanism is functioning properly. This pattern must be used in circuits optioned for B8ZS. alternateOneZero(3): Alternate one/zero pattern(..1010..). This pattern produces a 50% ones density. It is used to stress the repeater's DC power consumption. doubleOneZero(4): Double alternate one/zero(..10101010..). threeInTwentyFour(5): This is a 24 bit pattern which contains 3 ones. The largest string of consecutive zeros is fifteen. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern covers both the minimum ones density and the maximum number of consecutive zeros. oneInSixteen(6): N repetitive pattern, 1 in 16. oneInEight(7): This is an eight bit pattern which contains single one. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern is used to verify frame synchronization by providing the minimum acceptable pulse density. oneInFour(8): This pattern is standard loop up remote code. Typically it is used when the loop up remote test fails to place the remote system into loopback. sfLoopUp (9): D4/SF Loopback activate/up Valid only for T1 line. sfLoopDown(10): D4/SF Loopback deactivate/down Valid only for T1 line. threeBit (11): Repetitive patterns of 3 bits in length. fourBit (12): Repetitive patterns of 4 bits in length. fiveBit (13): Repetitive patterns of 5 bits in length. sixBit (14): Repetitive patterns of 6 bits in length. sevenBit (15): Repetitive patterns of 7 bits in length. fracT1LoopUp(16): Fractional T1 Loopback activate/up. fracT1LoopDown(17): Fractional T1 Loopback deactivate/down. nineBit (18): Repetitive patterns of 9 bits in length. tenBit (19): Repetitive patterns of 10 bits in length. elevenBit (20): Repetitive patterns of 11 bits in length. fifteenBit (21): Repetitive patterns of 15 bits in length. seventeenBit (22): Repetitive patterns of 17 bits in length. eighteenBit (23): Repetitive patterns of 18 bits in length. twentyBit (24): Repetitive patterns of 20 bits in length. twentyBitQRSS(25): 20 bits of Quasi Random Signal Source. twentyOneBit (26): Repetitive patterns of 21 bits in length. twentyTwoBit (27): Repetitive patterns of 22 bits in length. twentyThreeBit (28): Repetitive patterns of 23 bits in length. twentyFiveBit (29): Repetitive patterns of 25 bits in length. twentyEightBit (30): Repetitive patterns of 28 bits in length. twentyNineBit (31): Repetitive patterns of 29 bits in length. thirtyOneBit (32): Repetitive patterns of 32 bits in length. thirtyTwo (33): Repetitive patterns of 33 bits in length." REFERENCE "CCITT/ITU O.150, O.151, O.152, O.153, O.161 Standards." ::= { dsx3bert 10 }
Vendor: Stratacom
Module: CISCO-MGX82XX-DSX3-BERT-MIB
[Automatically extracted from oidview.com]
dsx3bertPattern OBJECT-TYPE SYNTAX INTEGER { allOnes (1), allZeros (2), alternateOneZero (3), doubleOneZero (4), threeInTwentyFour (5), oneInSixteen (6), oneInEight (7), oneInFour (8), sfLoopUp (9), sfLoopDown (10), threeBit (11), fourBit (12), fiveBit (13), sixBit (14), sevenBit (15), fracT1LoopUp (16), fracT1LoopDown (17), nineBit (18), tenBit (19), elevenBit (20), fifteenBit (21), seventeenBit (22), eighteenBit (23), twentyBit (24), twentyBitQRSS (25), twentyOneBit (26), twentyTwoBit (27), twentyThreeBit (28), twentyFiveBit (29), twentyEightBit (30), twentyNineBit (31), thirtyOneBit (32), thirtyTwo (33) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable determines BERT pattern to be transmitted on the interface identified by dsx3bertLine or dsx3bertPort. Bit error measurements are widely used to assess the performance of a digital transmission equipment. Precise error measurement requires that the bit pattern transmitted is known before hand. During BER testing a known pattern is transmitted on a interface. The pattern received on the receive side is checked for bit errors. In order to measure the performance of digital line under real condition this patterns should also simulate real traffic as closely as possible. There are two categories of test patterns that can be generated by a BERT equipment: repetitive and pseudo-random. The former test patterns are zeroes or ones or alternating zeroes and ones; the latter patterns are exponential numbers and conform to CCITT/ITU O.151, O.153. There are different patterns for different interface speeds. This object allows the user to configure this BERT patterns. The supported values are : Repetitive Patterns allOnes(1): All Ones(Continuous Marks). This is repeating pattern of ones(...1111...). This provides testing of maximum power level requirements. The all one pattern test causes the repeater to consume the maximum amount of power. If there is insufficient DC span power then the repeater may begin to fail. Typically this pattern is used for a simple continuity check. It may also be used to detect the presence of unwanted loop in the network. allZeros(2): All Zeroes(Continuous spaces). This is repeating pattern of zeros(...000...). The use of this pattern is to test and verify that the ones density policing mechanism is functioning properly. This pattern must be used in circuits optioned for B8ZS. alternateOneZero(3): Alternate one/zero pattern(..1010..). This pattern produces a 50% ones density. It is used to stress the repeater's DC power consumption. doubleOneZero(4): Double alternate one/zero(..10101010..). threeInTwentyFour(5): This is a 24 bit pattern which contains 3 ones. The largest string of consecutive zeros is fifteen. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern covers both the minimum ones density and the maximum number of consecutive zeros. oneInSixteen(6): N repetitive pattern, 1 in 16. oneInEight(7): This is an eight bit pattern which contains single one. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern is used to verify frame synchronization by providing the minimum acceptable pulse density. oneInFour(8): This pattern is standard loop up remote code. Typically it is used when the loop up remote test fails to place the remote system into loopback. sfLoopUp (9): D4/SF Loopback activate/up Valid only for T1 line. sfLoopDown(10): D4/SF Loopback deactivate/down Valid only for T1 line. threeBit (11): Repetitive patterns of 3 bits in length. fourBit (12): Repetitive patterns of 4 bits in length. fiveBit (13): Repetitive patterns of 5 bits in length. sixBit (14): Repetitive patterns of 6 bits in length. sevenBit (15): Repetitive patterns of 7 bits in length. fracT1LoopUp(16): Fractional T1 Loopback activate/up. fracT1LoopDown(17): Fractional T1 Loopback deactivate/down. nineBit (18): Repetitive patterns of 9 bits in length. tenBit (19): Repetitive patterns of 10 bits in length. elevenBit (20): Repetitive patterns of 11 bits in length. fifteenBit (21): Repetitive patterns of 15 bits in length. seventeenBit (22): Repetitive patterns of 17 bits in length. eighteenBit (23): Repetitive patterns of 18 bits in length. twentyBit (24): Repetitive patterns of 20 bits in length. twentyBitQRSS(25): 20 bits of Quasi Random Signal Source. twentyOneBit (26): Repetitive patterns of 21 bits in length. twentyTwoBit (27): Repetitive patterns of 22 bits in length. twentyThreeBit (28): Repetitive patterns of 23 bits in length. twentyFiveBit (29): Repetitive patterns of 25 bits in length. twentyEightBit (30): Repetitive patterns of 28 bits in length. twentyNineBit (31): Repetitive patterns of 29 bits in length. thirtyOneBit (32): Repetitive patterns of 32 bits in length. thirtyTwo (33): Repetitive patterns of 33 bits in length. " REFERENCE "CCITT/ITU O.150, O.151, O.152, O.153, O.161 Standards." ::= { dsx3bert 10 }
dsx3bertPattern OBJECT-TYPE SYNTAX INTEGER { allOnes (1), allZeros (2), alternateOneZero (3), doubleOneZero (4), threeInTwentyFour (5), oneInSixteen (6), oneInEight (7), oneInFour (8), sfLoopUp (9), sfLoopDown (10), threeBit (11), fourBit (12), fiveBit (13), sixBit (14), sevenBit (15), fracT1LoopUp (16), fracT1LoopDown (17), nineBit (18), tenBit (19), elevenBit (20), fifteenBit (21), seventeenBit (22), eighteenBit (23), twentyBit (24), twentyBitQRSS (25), twentyOneBit (26), twentyTwoBit (27), twentyThreeBit (28), twentyFiveBit (29), twentyEightBit (30), twentyNineBit (31), thirtyOneBit (32), thirtyTwo (33) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable determines BERT pattern to be transmitted on the interface identified by dsx3bertLine or dsx3bertPort. Bit error measurements are widely used to assess the performance of a digital transmission equipment. Precise error measurement requires that the bit pattern transmitted is known before hand. During BER testing a known pattern is transmitted on a interface. The pattern received on the receive side is checked for bit errors. In order to measure the performance of digital line under real condition this patterns should also simulate real traffic as closely as possible. There are two categories of test patterns that can be generated by a BERT equipment: repetitive and pseudo-random. The former test patterns are zeroes or ones or alternating zeroes and ones; the latter patterns are exponential numbers and conform to CCITT/ITU O.151, O.153. There are different patterns for different interface speeds. This object allows the user to configure this BERT patterns. The supported values are : Repetitive Patterns allOnes(1): All Ones(Continuous Marks). This is repeating pattern of ones(...1111...). This provides testing of maximum power level requirements. The all one pattern test causes the repeater to consume the maximum amount of power. If there is insufficient DC span power then the repeater may begin to fail. Typically this pattern is used for a simple continuity check. It may also be used to detect the presence of unwanted loop in the network. allZeros(2): All Zeroes(Continuous spaces). This is repeating pattern of zeros(...000...). The use of this pattern is to test and verify that the ones density policing mechanism is functioning properly. This pattern must be used in circuits optioned for B8ZS. alternateOneZero(3): Alternate one/zero pattern(..1010..). This pattern produces a 50% ones density. It is used to stress the repeater's DC power consumption. doubleOneZero(4): Double alternate one/zero(..10101010..). threeInTwentyFour(5): This is a 24 bit pattern which contains 3 ones. The largest string of consecutive zeros is fifteen. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern covers both the minimum ones density and the maximum number of consecutive zeros. oneInSixteen(6): N repetitive pattern, 1 in 16. oneInEight(7): This is an eight bit pattern which contains single one. This pattern is used primarily to test timing(clock) recovery and may be used framed or unframed for that purpose. This pattern is used to verify frame synchronization by providing the minimum acceptable pulse density. oneInFour(8): This pattern is standard loop up remote code. Typically it is used when the loop up remote test fails to place the remote system into loopback. sfLoopUp (9): D4/SF Loopback activate/up Valid only for T1 line. sfLoopDown(10): D4/SF Loopback deactivate/down Valid only for T1 line. threeBit (11): Repetitive patterns of 3 bits in length. fourBit (12): Repetitive patterns of 4 bits in length. fiveBit (13): Repetitive patterns of 5 bits in length. sixBit (14): Repetitive patterns of 6 bits in length. sevenBit (15): Repetitive patterns of 7 bits in length. fracT1LoopUp(16): Fractional T1 Loopback activate/up. fracT1LoopDown(17): Fractional T1 Loopback deactivate/down. nineBit (18): Repetitive patterns of 9 bits in length. tenBit (19): Repetitive patterns of 10 bits in length. elevenBit (20): Repetitive patterns of 11 bits in length. fifteenBit (21): Repetitive patterns of 15 bits in length. seventeenBit (22): Repetitive patterns of 17 bits in length. eighteenBit (23): Repetitive patterns of 18 bits in length. twentyBit (24): Repetitive patterns of 20 bits in length. twentyBitQRSS(25): 20 bits of Quasi Random Signal Source. twentyOneBit (26): Repetitive patterns of 21 bits in length. twentyTwoBit (27): Repetitive patterns of 22 bits in length. twentyThreeBit (28): Repetitive patterns of 23 bits in length. twentyFiveBit (29): Repetitive patterns of 25 bits in length. twentyEightBit (30): Repetitive patterns of 28 bits in length. twentyNineBit (31): Repetitive patterns of 29 bits in length. thirtyOneBit (32): Repetitive patterns of 32 bits in length. thirtyTwo (33): Repetitive patterns of 33 bits in length. " REFERENCE "CCITT/ITU O.150, O.151, O.152, O.153, O.161 Standards." ::= { dsx3bert 10 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.351.110.6.2.10.0 | dsx3bertPattern | 0 | 0 | None |
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.351.110.6.2.1 | rasDskStatus, dsx3bertControl | 1 | 1 | Indicates whether the RAS Disk diagnostics has been Enabled or not. |
| 1.3.6.1.4.1.351.110.6.2.2 | dskHealth, dsx3bertResourceStatus | 1 | 1 | All of bert resources can be used by only one user at a time. This object provides the status of the resources. |
| 1.3.6.1.4.1.351.110.6.2.3 | standbyDskHealth, dsx3bertOwner | 1 | 1 | This refers to the user who owns the BERT resources. If the user is a CLI user, then this is username. If it is SNMP Manager, the… |
| 1.3.6.1.4.1.351.110.6.2.4 | wakeupInterval, dsx3bertUserId | 1 | 1 | Indicates the RAS Disk diagnostics task Wake up time period, in HOURS. This Interval is configurable between 12 hours and 7 days.… |
| 1.3.6.1.4.1.351.110.6.2.5 | lastTime, dsx3bertStatus | 1 | 1 | Shows the Time when the RAS Disk diagnostics was Last done. The format is DD MONTH HH:MM:SS. |
| 1.3.6.1.4.1.351.110.6.2.6 | numBadSectors, dsx3bertTestMedium | 1 | 1 | Indicates the Number of Bad Sectors found in the Disk. |
| 1.3.6.1.4.1.351.110.6.2.7 | crptdPRIfiles, dsx3bertPort | 1 | 1 | Indicates the Number of SM configuration files, corrupted. |
| 1.3.6.1.4.1.351.110.6.2.8 | crptdFWfiles, dsx3bertLine | 1 | 1 | Indicates the Number of FirmWare files, corrupted. |
| 1.3.6.1.4.1.351.110.6.2.9 | dsx3bertMode | 1 | 1 | This object specifies the mode, the BERT module is to be configured for. The value loopback(2) is not supported in CESM-T3E3 and … |
| 1.3.6.1.4.1.351.110.6.2.11 | dsx3bertLoopback | 1 | 1 | This object specifies the type of loopback to be established/de-established. The value farEndLoopback(1) is not supported in CESM-… |
| 1.3.6.1.4.1.351.110.6.2.12 | dsx3bertStartTime | 1 | 1 | This object contains the time at which BERT started. The syntax is hh:mm:ss. The time zone is as configured in the shelf. This obj… |
| 1.3.6.1.4.1.351.110.6.2.13 | dsx3bertStartDate | 1 | 1 | This object contains the date on which BERT started. The syntax is yy/mm/dd. This object contains zero length string for followin… |
| 1.3.6.1.4.1.351.110.6.2.14 | dsx3bertBitCountUpper | 1 | 1 | This number of bits transmitted is represented in an encoded form as a 64-bit counter. This object gives the upper 31 bits of the… |
| 1.3.6.1.4.1.351.110.6.2.15 | dsx3bertBitCountLower | 1 | 1 | This number of bits transmitted is represented in an encoded form as a 64-bit counter. This object gives the lower 31 bits of the… |
| 1.3.6.1.4.1.351.110.6.2.16 | dsx3bertBitErrorCountUpper | 1 | 1 | This number of bits received in error is represented in an encoded form as a 64-bit counter. This object gives the upper 31 bits … |
| 1.3.6.1.4.1.351.110.6.2.17 | dsx3bertBitErrorCountLower | 1 | 1 | This number of bits received in error is represented in an encoded form as a 64-bit counter. This object gives the lower 31 bits … |
| 1.3.6.1.4.1.351.110.6.2.18 | dsx3bertErrorInsertionRate | 1 | 1 | This object is used for injecting continuous errors into transmitted BERT pattern. The errors are inserted in a BERT pattern sen… |
| 1.3.6.1.4.1.351.110.6.2.19 | dsx3bertErrorInjectCount | 1 | 1 | This shows the number of times error was injected. |
| 1.3.6.1.4.1.351.110.6.2.20 | dsx3bertCleanupAction | 1 | 1 | When the BERT has to be stopped or aborted (due to card state changes), this object would give the exact action to take. The bert… |