#stp — Public Fediverse posts

Leipzig favored to win the Buli clash with St. Pauli, as fans anticipate a lively duel. Kickoff 15:30 CEST, exciting and competitive action ahead.

RasenBallsport Leipzig 59.5%
Draw 25.3%
FC St. Pauli 15.2%

#Football #Soccer #Bundesliga #RBL #STP #RBLSTP

Leipzig favored to win the Buli clash with St. Pauli, as fans anticipate a lively duel. Kickoff 15:30 CEST, exciting and competitive action ahead.

RasenBallsport Leipzig 59.5%
Draw 25.3%
FC St. Pauli 15.2%

#Football #Soccer #Bundesliga #RBL #STP #RBLSTP

Leipzig favored to win the Buli clash with St. Pauli, as fans anticipate a lively duel. Kickoff 15:30 CEST, exciting and competitive action ahead.

RasenBallsport Leipzig 59.5%
Draw 25.3%
FC St. Pauli 15.2%

#Football #Soccer #Bundesliga #RBL #STP #RBLSTP

Leipzig favored to win the Buli clash with St. Pauli, as fans anticipate a lively duel. Kickoff 15:30 CEST, exciting and competitive action ahead.

RasenBallsport Leipzig 59.5%
Draw 25.3%
FC St. Pauli 15.2%

#Football #Soccer #Bundesliga #RBL #STP #RBLSTP

Leipzig favored to win the Buli clash with St. Pauli, as fans anticipate a lively duel. Kickoff 15:30 CEST, exciting and competitive action ahead.

RasenBallsport Leipzig 59.5%
Draw 25.3%
FC St. Pauli 15.2%

#Football #Soccer #Bundesliga #RBL #STP #RBLSTP

📊 #BuLiSaisonPrognose - Team-Analyse FC St. Pauli nach dem 32. Spieltag:

📉 Absturz seit Mitte der Rückrunde: Von 26% auf 99% Abstiegswahrscheinlichkeit seit Spieltag 24.

⚠️ St. Pauli ist auf den 17. Rang gerutscht. Nur noch 39% für Relegation oder besser. Mit Blick auf den aktuellen Lauf kann der letzte Spieltag bitter werden.

#BuLiPrognose #Bundesliga #Fußball #STP #FCSP #SanktPauli

📊 #BuLiSaisonPrognose - Team-Analyse FC St. Pauli nach dem 32. Spieltag:

📉 Absturz seit Mitte der Rückrunde: Von 26% auf 99% Abstiegswahrscheinlichkeit seit Spieltag 24.

⚠️ St. Pauli ist auf den 17. Rang gerutscht. Nur noch 39% für Relegation oder besser. Mit Blick auf den aktuellen Lauf kann der letzte Spieltag bitter werden.

#BuLiPrognose #Bundesliga #Fußball #STP #FCSP #SanktPauli

📊 #BuLiSaisonPrognose - Team-Analyse FC St. Pauli nach dem 32. Spieltag:

📉 Absturz seit Mitte der Rückrunde: Von 26% auf 99% Abstiegswahrscheinlichkeit seit Spieltag 24.

⚠️ St. Pauli ist auf den 17. Rang gerutscht. Nur noch 39% für Relegation oder besser. Mit Blick auf den aktuellen Lauf kann der letzte Spieltag bitter werden.

#BuLiPrognose #Bundesliga #Fußball #STP #FCSP #SanktPauli

📊 #BuLiSaisonPrognose - Team-Analyse FC St. Pauli nach dem 32. Spieltag:

📉 Absturz seit Mitte der Rückrunde: Von 26% auf 99% Abstiegswahrscheinlichkeit seit Spieltag 24.

⚠️ St. Pauli ist auf den 17. Rang gerutscht. Nur noch 39% für Relegation oder besser. Mit Blick auf den aktuellen Lauf kann der letzte Spieltag bitter werden.

#BuLiPrognose #Bundesliga #Fußball #STP #FCSP #SanktPauli

📊 #BuLiSaisonPrognose - Team-Analyse FC St. Pauli nach dem 32. Spieltag:

📉 Absturz seit Mitte der Rückrunde: Von 26% auf 99% Abstiegswahrscheinlichkeit seit Spieltag 24.

⚠️ St. Pauli ist auf den 17. Rang gerutscht. Nur noch 39% für Relegation oder besser. Mit Blick auf den aktuellen Lauf kann der letzte Spieltag bitter werden.

#BuLiPrognose #Bundesliga #Fußball #STP #FCSP #SanktPauli

Radia Joy Perlman came up with a brilliant solution in just a few days to make computer networks both larger and more reliable.

She created #STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

I think that I shall never see
A graph more lovely than a tree.

A tree whose crucial property
Is loop-free connectivity.

A tree which must be sure to span
So packets can reach every LAN.

First the root must be selected.
By ID it is elected.

Least cost paths from root are traced.
In the tree these paths are placed.

A mesh is made by folks like me
Then bridges find a spanning tree.

— #Radia_Joy_Perlman

2/2 Fin

#CelebratingWomen #Poetry #Computer_Science

Radia Joy Perlman came up with a brilliant solution in just a few days to make computer networks both larger and more reliable.

She created #STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

I think that I shall never see
A graph more lovely than a tree.

A tree whose crucial property
Is loop-free connectivity.

A tree which must be sure to span
So packets can reach every LAN.

First the root must be selected.
By ID it is elected.

Least cost paths from root are traced.
In the tree these paths are placed.

A mesh is made by folks like me
Then bridges find a spanning tree.

— #Radia_Joy_Perlman

2/2 Fin

#CelebratingWomen #Poetry #Computer_Science

Radia Joy Perlman came up with a brilliant solution in just a few days to make computer networks both larger and more reliable.

She created #STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

I think that I shall never see
A graph more lovely than a tree.

A tree whose crucial property
Is loop-free connectivity.

A tree which must be sure to span
So packets can reach every LAN.

First the root must be selected.
By ID it is elected.

Least cost paths from root are traced.
In the tree these paths are placed.

A mesh is made by folks like me
Then bridges find a spanning tree.

— #Radia_Joy_Perlman

2/2 Fin

#CelebratingWomen #Poetry #Computer_Science

Radia Joy Perlman came up with a brilliant solution in just a few days to make computer networks both larger and more reliable.

She created #STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

I think that I shall never see
A graph more lovely than a tree.

A tree whose crucial property
Is loop-free connectivity.

A tree which must be sure to span
So packets can reach every LAN.

First the root must be selected.
By ID it is elected.

Least cost paths from root are traced.
In the tree these paths are placed.

A mesh is made by folks like me
Then bridges find a spanning tree.

— #Radia_Joy_Perlman

2/2 Fin

#CelebratingWomen #Poetry #Computer_Science

Radia Joy Perlman came up with a brilliant solution in just a few days to make computer networks both larger and more reliable.

She created #STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

I think that I shall never see
A graph more lovely than a tree.

A tree whose crucial property
Is loop-free connectivity.

A tree which must be sure to span
So packets can reach every LAN.

First the root must be selected.
By ID it is elected.

Least cost paths from root are traced.
In the tree these paths are placed.

A mesh is made by folks like me
Then bridges find a spanning tree.

— #Radia_Joy_Perlman

2/2 Fin

#CelebratingWomen #Poetry #Computer_Science

From @joannechocolat

Radia Joy Perlman (born 1951) is an American computer programmer, network engineer, & major figure in assembling the networks and technology to enable what we now know as the Internet.

Personal note:

First of all, I love her name! "Radiating (happy, bright) Joy" - and all the photos of her I have seen seem to bear that out! 😊

Her best-known contribution is the Spanning Tree Protocol (#STP), which transformed Ethernet from a technology limited to a few hundred nodes confined w/i a single building into a technology that can create large networks with hundreds of thousands of computers, & made fundamental contributions to internet routing, making it more resilient, scalable & easy to manage. The protocols she designed in the 80s remain widely deployed today.

At the time, if a network had extra connections (called redundant links), it could create a "loop." A loop would cause data to circle around forever, flooding the network and causing it to fail.

Perlman came up with a brilliant solution in just a few days. She created STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

(To be continued ...)

1/2

#CelebratingWomen #Radia_Joy_Perlman #Computer_Science

From @joannechocolat

Radia Joy Perlman (born 1951) is an American computer programmer, network engineer, & major figure in assembling the networks and technology to enable what we now know as the Internet.

Personal note:

First of all, I love her name! "Radiating (happy, bright) Joy" - and all the photos of her I have seen seem to bear that out! 😊

Her best-known contribution is the Spanning Tree Protocol (#STP), which transformed Ethernet from a technology limited to a few hundred nodes confined w/i a single building into a technology that can create large networks with hundreds of thousands of computers, & made fundamental contributions to internet routing, making it more resilient, scalable & easy to manage. The protocols she designed in the 80s remain widely deployed today.

At the time, if a network had extra connections (called redundant links), it could create a "loop." A loop would cause data to circle around forever, flooding the network and causing it to fail.

Perlman came up with a brilliant solution in just a few days. She created STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

(To be continued ...)

1/2

#CelebratingWomen #Radia_Joy_Perlman #Computer_Science

From @joannechocolat

Radia Joy Perlman (born 1951) is an American computer programmer, network engineer, & major figure in assembling the networks and technology to enable what we now know as the Internet.

Personal note:

First of all, I love her name! "Radiating (happy, bright) Joy" - and all the photos of her I have seen seem to bear that out! 😊

Her best-known contribution is the Spanning Tree Protocol (#STP), which transformed Ethernet from a technology limited to a few hundred nodes confined w/i a single building into a technology that can create large networks with hundreds of thousands of computers, & made fundamental contributions to internet routing, making it more resilient, scalable & easy to manage. The protocols she designed in the 80s remain widely deployed today.

At the time, if a network had extra connections (called redundant links), it could create a "loop." A loop would cause data to circle around forever, flooding the network and causing it to fail.

Perlman came up with a brilliant solution in just a few days. She created STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

(To be continued ...)

1/2

#CelebratingWomen #Radia_Joy_Perlman #Computer_Science

From @joannechocolat

Radia Joy Perlman (born 1951) is an American computer programmer, network engineer, & major figure in assembling the networks and technology to enable what we now know as the Internet.

Personal note:

First of all, I love her name! "Radiating (happy, bright) Joy" - and all the photos of her I have seen seem to bear that out! 😊

Her best-known contribution is the Spanning Tree Protocol (#STP), which transformed Ethernet from a technology limited to a few hundred nodes confined w/i a single building into a technology that can create large networks with hundreds of thousands of computers, & made fundamental contributions to internet routing, making it more resilient, scalable & easy to manage. The protocols she designed in the 80s remain widely deployed today.

At the time, if a network had extra connections (called redundant links), it could create a "loop." A loop would cause data to circle around forever, flooding the network and causing it to fail.

Perlman came up with a brilliant solution in just a few days. She created STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

(To be continued ...)

1/2

#CelebratingWomen #Radia_Joy_Perlman #Computer_Science

From @joannechocolat

Radia Joy Perlman (born 1951) is an American computer programmer, network engineer, & major figure in assembling the networks and technology to enable what we now know as the Internet.

Personal note:

First of all, I love her name! "Radiating (happy, bright) Joy" - and all the photos of her I have seen seem to bear that out! 😊

Her best-known contribution is the Spanning Tree Protocol (#STP), which transformed Ethernet from a technology limited to a few hundred nodes confined w/i a single building into a technology that can create large networks with hundreds of thousands of computers, & made fundamental contributions to internet routing, making it more resilient, scalable & easy to manage. The protocols she designed in the 80s remain widely deployed today.

At the time, if a network had extra connections (called redundant links), it could create a "loop." A loop would cause data to circle around forever, flooding the network and causing it to fail.

Perlman came up with a brilliant solution in just a few days. She created STP, which allows networks to have backup paths for safety, but turns off any extra paths that could cause a loop. This leaves just one clear, active path for data to travel between any two points on the network.

Perlman even wrote a short #poem, called "Algorhyme," to explain how STP works: 🤩

(To be continued ...)

1/2

#CelebratingWomen #Radia_Joy_Perlman #Computer_Science

Mainz favored in a tight BL showdown vs St. Pauli. Expect a lively duel as both look to end strong. Kickoff 15:30 CEST.

FC St. Pauli 25.9%
Draw 29.9%
1.FSV Mainz 05 44.1%

#Football #Soccer #Bundesliga #STP #M05 #STPM05

Mainz favored in a tight BL showdown vs St. Pauli. Expect a lively duel as both look to end strong. Kickoff 15:30 CEST.

FC St. Pauli 25.9%
Draw 29.9%
1.FSV Mainz 05 44.1%

#Football #Soccer #Bundesliga #STP #M05 #STPM05

Mainz favored in a tight BL showdown vs St. Pauli. Expect a lively duel as both look to end strong. Kickoff 15:30 CEST.

FC St. Pauli 25.9%
Draw 29.9%
1.FSV Mainz 05 44.1%

#Football #Soccer #Bundesliga #STP #M05 #STPM05

Mainz favored in a tight BL showdown vs St. Pauli. Expect a lively duel as both look to end strong. Kickoff 15:30 CEST.

FC St. Pauli 25.9%
Draw 29.9%
1.FSV Mainz 05 44.1%

#Football #Soccer #Bundesliga #STP #M05 #STPM05

Mainz favored in a tight BL showdown vs St. Pauli. Expect a lively duel as both look to end strong. Kickoff 15:30 CEST.

FC St. Pauli 25.9%
Draw 29.9%
1.FSV Mainz 05 44.1%

#Football #Soccer #Bundesliga #STP #M05 #STPM05

@chiffchaff @oxy @davidgerard This is eerily evocative of the current monoculture in modern networking: #eBGP , #Clos network (spine-and-leaf), aggregated top-of-rack switches. #STP everywhere. Mentioning #G8032 #ERPS rings gets you strange looks; that's just for security camera #PoE switches isn't it? /s And the utter dependency of #SRv6 #TILFA robustness on #ISIS state. From this I infer that the #GenAI obsession is retarding actual progress in telecoms and computer networking.

@chiffchaff @oxy @davidgerard This is eerily evocative of the current monoculture in modern networking: #eBGP , #Clos network (spine-and-leaf), aggregated top-of-rack switches. #STP everywhere. Mentioning #G8032 #ERPS rings gets you strange looks; that's just for security camera #PoE switches isn't it? /s And the utter dependency of #SRv6 #TILFA robustness on #ISIS state. From this I infer that the #GenAI obsession is retarding actual progress in telecoms and computer networking.

@chiffchaff @oxy @davidgerard This is eerily evocative of the current monoculture in modern networking: #eBGP , #Clos network (spine-and-leaf), aggregated top-of-rack switches. #STP everywhere. Mentioning #G8032 #ERPS rings gets you strange looks; that's just for security camera #PoE switches isn't it? /s And the utter dependency of #SRv6 #TILFA robustness on #ISIS state. From this I infer that the #GenAI obsession is retarding actual progress in telecoms and computer networking.

@chiffchaff @oxy @davidgerard This is eerily evocative of the current monoculture in modern networking: #eBGP , #Clos network (spine-and-leaf), aggregated top-of-rack switches. #STP everywhere. Mentioning #G8032 #ERPS rings gets you strange looks; that's just for security camera #PoE switches isn't it? /s And the utter dependency of #SRv6 #TILFA robustness on #ISIS state. From this I infer that the #GenAI obsession is retarding actual progress in telecoms and computer networking.

@chiffchaff @oxy @davidgerard This is eerily evocative of the current monoculture in modern networking: #eBGP , #Clos network (spine-and-leaf), aggregated top-of-rack switches. #STP everywhere. Mentioning #G8032 #ERPS rings gets you strange looks; that's just for security camera #PoE switches isn't it? /s And the utter dependency of #SRv6 #TILFA robustness on #ISIS state. From this I infer that the #GenAI obsession is retarding actual progress in telecoms and computer networking.

Heidenheim slight edge in a tight Bundesliga duel with St. Pauli; a draw is plausible, but goals could tilt either way. Kickoff 15:30 CEST.

1.FC Heidenheim 1846 36.7%
Draw 30.8%
FC St. Pauli 32.5%

#Football #Soccer #Bundesliga #FCH #STP #FCHSTP

Heidenheim slight edge in a tight Bundesliga duel with St. Pauli; a draw is plausible, but goals could tilt either way. Kickoff 15:30 CEST.

1.FC Heidenheim 1846 36.7%
Draw 30.8%
FC St. Pauli 32.5%

#Football #Soccer #Bundesliga #FCH #STP #FCHSTP

Heidenheim slight edge in a tight Bundesliga duel with St. Pauli; a draw is plausible, but goals could tilt either way. Kickoff 15:30 CEST.

1.FC Heidenheim 1846 36.7%
Draw 30.8%
FC St. Pauli 32.5%

#Football #Soccer #Bundesliga #FCH #STP #FCHSTP

Heidenheim slight edge in a tight Bundesliga duel with St. Pauli; a draw is plausible, but goals could tilt either way. Kickoff 15:30 CEST.

1.FC Heidenheim 1846 36.7%
Draw 30.8%
FC St. Pauli 32.5%

#Football #Soccer #Bundesliga #FCH #STP #FCHSTP

Heidenheim slight edge in a tight Bundesliga duel with St. Pauli; a draw is plausible, but goals could tilt either way. Kickoff 15:30 CEST.

1.FC Heidenheim 1846 36.7%
Draw 30.8%
FC St. Pauli 32.5%

#Football #Soccer #Bundesliga #FCH #STP #FCHSTP

St. Pauli slight favorite, Köln close behind, in a tight Bundesliga duel. Anticipation builds for a 20:30 CEST kickoff.

FC St. Pauli 35.3%
Draw 30.8%
1.FC Köln 33.8%

#Football #Soccer #Bundesliga #STP #KOL #STPKOL

St. Pauli slight favorite, Köln close behind, in a tight Bundesliga duel. Anticipation builds for a 20:30 CEST kickoff.

FC St. Pauli 35.3%
Draw 30.8%
1.FC Köln 33.8%

#Football #Soccer #Bundesliga #STP #KOL #STPKOL

St. Pauli slight favorite, Köln close behind, in a tight Bundesliga duel. Anticipation builds for a 20:30 CEST kickoff.

FC St. Pauli 35.3%
Draw 30.8%
1.FC Köln 33.8%

#Football #Soccer #Bundesliga #STP #KOL #STPKOL

St. Pauli slight favorite, Köln close behind, in a tight Bundesliga duel. Anticipation builds for a 20:30 CEST kickoff.

FC St. Pauli 35.3%
Draw 30.8%
1.FC Köln 33.8%

#Football #Soccer #Bundesliga #STP #KOL #STPKOL

St. Pauli slight favorite, Köln close behind, in a tight Bundesliga duel. Anticipation builds for a 20:30 CEST kickoff.

FC St. Pauli 35.3%
Draw 30.8%
1.FC Köln 33.8%

#Football #Soccer #Bundesliga #STP #KOL #STPKOL

Bayern, clear BL favorites, as 18:30 CEST kicks off; St Pauli the underdogs chasing an upset, with a hopeful draw possible.

FC St. Pauli 6.3%
Draw 16.1%
FC Bayern München 77.6%

#Football #Soccer #Bundesliga #STP #BAY #STPBAY

Bayern, clear BL favorites, as 18:30 CEST kicks off; St Pauli the underdogs chasing an upset, with a hopeful draw possible.

FC St. Pauli 6.3%
Draw 16.1%
FC Bayern München 77.6%

#Football #Soccer #Bundesliga #STP #BAY #STPBAY

Bayern, clear BL favorites, as 18:30 CEST kicks off; St Pauli the underdogs chasing an upset, with a hopeful draw possible.

FC St. Pauli 6.3%
Draw 16.1%
FC Bayern München 77.6%

#Football #Soccer #Bundesliga #STP #BAY #STPBAY

Bayern, clear BL favorites, as 18:30 CEST kicks off; St Pauli the underdogs chasing an upset, with a hopeful draw possible.

FC St. Pauli 6.3%
Draw 16.1%
FC Bayern München 77.6%

#Football #Soccer #Bundesliga #STP #BAY #STPBAY

Bayern, clear BL favorites, as 18:30 CEST kicks off; St Pauli the underdogs chasing an upset, with a hopeful draw possible.

FC St. Pauli 6.3%
Draw 16.1%
FC Bayern München 77.6%

#Football #Soccer #Bundesliga #STP #BAY #STPBAY

Union are slight favorites as they host St. Pauli in the BL, kicking off at 15:30 CEST. Expect a tight, lively clash.

1.FC Union Berlin 42.5%
Draw 30.2%
FC St. Pauli 27.3%

#Football #Soccer #Bundesliga #FCU #STP #FCUSTP

Union are slight favorites as they host St. Pauli in the BL, kicking off at 15:30 CEST. Expect a tight, lively clash.

1.FC Union Berlin 42.5%
Draw 30.2%
FC St. Pauli 27.3%

#Football #Soccer #Bundesliga #FCU #STP #FCUSTP

Union are slight favorites as they host St. Pauli in the BL, kicking off at 15:30 CEST. Expect a tight, lively clash.

1.FC Union Berlin 42.5%
Draw 30.2%
FC St. Pauli 27.3%

#Football #Soccer #Bundesliga #FCU #STP #FCUSTP

Union are slight favorites as they host St. Pauli in the BL, kicking off at 15:30 CEST. Expect a tight, lively clash.

1.FC Union Berlin 42.5%
Draw 30.2%
FC St. Pauli 27.3%

#Football #Soccer #Bundesliga #FCU #STP #FCUSTP

Union are slight favorites as they host St. Pauli in the BL, kicking off at 15:30 CEST. Expect a tight, lively clash.

1.FC Union Berlin 42.5%
Draw 30.2%
FC St. Pauli 27.3%

#Football #Soccer #Bundesliga #FCU #STP #FCUSTP