In our small group of gamers spread between Australia’s southern regions, we often run into one shared problem: latency spikes when connecting to international game servers. I am based in a mixed setup where some of us play from Hobart while others occasionally travel or route traffic through Perth. We decided to test a VPN in real conditions, not just theory, to see whether performance could actually stay stable during competitive gaming sessions.
Our focus was simple: measure consistency, not just peak speed. That is how our collective testing story began.
We did not use a lab environment. Instead, we simulated normal usage:
One PC running competitive FPS games (CS-style latency sensitive environment)
One console session running a multiplayer racing game
Background streaming of voice chat via Discord
VPN active across multiple test points
We also included a reference node in a different Australian city, Adelaide, just to compare how routing changed across regions.
Each session lasted around 45–60 minutes, and we repeated tests at three different times of day:
Morning (low network congestion)
Evening (peak usage hours)
Late night (stable baseline)
The Core Test: What Happened with the VPN
During the test labeled PIA VPN speed test from Perth, we focused on routing stability between Perth exit nodes and Hobart-based gaming sessions.
Here is what we observed collectively:
Average ping without VPN: 38–52 ms
Average ping with VPN (Perth node): 55–78 ms
Peak spike moments: up to 110 ms during server switching
Packet loss: under 1.5% in most sessions
Stability duration: around 85% of gameplay time remained smooth
At first, we expected a much worse degradation. Instead, the results were surprisingly usable for casual and semi-competitive gaming.
Personal Experience: The Moment It Became Clear
I remember one evening session vividly. We were in a ranked match, and I was connected through a Perth exit server while my teammate was in Hobart without VPN. Normally, I would expect to feel a disadvantage.
Instead, something interesting happened:
My ping stayed stable around 62 ms
My teammate fluctuated between 45–70 ms due to ISP routing
We ended up with nearly identical responsiveness in-game
That moment made it clear that raw distance is not the only factor—routing quality matters just as much.
What We Learned as a Group
We summarized our findings into a few practical insights:
VPN does not always increase lag dramatically if routing is optimized
Perth-based exit nodes provided surprisingly stable paths to southern servers
Hobart users benefited more from consistency than raw speed
Background applications (voice chat + streaming) did not significantly degrade performance
We also noticed that peak-hour congestion mattered more than VPN usage itself.
Simple Comparison List
To make sense of the results, we compared three scenarios:
Direct connection (no VPN): fastest but inconsistent during peak hours
VPN via Perth: slightly slower but more stable overall
VPN via distant international node: unusable for competitive gaming
This helped us narrow down the best practical setup.
Was It Worth It?
From my perspective and our collective testing group, the answer is yes—but with conditions. The VPN is not a magic speed booster. Instead, it acts like a stabilizer when routing gets unpredictable.
We would not recommend it blindly for every gamer. However, for Hobart-based players dealing with inconsistent ISP routes, the Perth exit node approach is surprisingly balanced.
In the end, our experiment was less about chasing lower ping and more about finding consistency. And in online gaming, consistency often wins more matches than raw speed ever will.
Why We Even Tested This
In our small group of gamers spread between Australia’s southern regions, we often run into one shared problem: latency spikes when connecting to international game servers. I am based in a mixed setup where some of us play from Hobart while others occasionally travel or route traffic through Perth. We decided to test a VPN in real conditions, not just theory, to see whether performance could actually stay stable during competitive gaming sessions.
Our focus was simple: measure consistency, not just peak speed. That is how our collective testing story began.
Hobart gamers checking WA server speeds can review the PIA VPN speed test from Perth to optimise their gaming. Access the results here: https://www.wellnessdepartment.com.au/group/juns-group/discussion/c969a042-643c-477b-adbe-3559097ffd64
The Setup: Real-World Gaming Conditions
We did not use a lab environment. Instead, we simulated normal usage:
One PC running competitive FPS games (CS-style latency sensitive environment)
One console session running a multiplayer racing game
Background streaming of voice chat via Discord
VPN active across multiple test points
We also included a reference node in a different Australian city, Adelaide, just to compare how routing changed across regions.
Each session lasted around 45–60 minutes, and we repeated tests at three different times of day:
Morning (low network congestion)
Evening (peak usage hours)
Late night (stable baseline)
The Core Test: What Happened with the VPN
During the test labeled PIA VPN speed test from Perth, we focused on routing stability between Perth exit nodes and Hobart-based gaming sessions.
Here is what we observed collectively:
Average ping without VPN: 38–52 ms
Average ping with VPN (Perth node): 55–78 ms
Peak spike moments: up to 110 ms during server switching
Packet loss: under 1.5% in most sessions
Stability duration: around 85% of gameplay time remained smooth
At first, we expected a much worse degradation. Instead, the results were surprisingly usable for casual and semi-competitive gaming.
Personal Experience: The Moment It Became Clear
I remember one evening session vividly. We were in a ranked match, and I was connected through a Perth exit server while my teammate was in Hobart without VPN. Normally, I would expect to feel a disadvantage.
Instead, something interesting happened:
My ping stayed stable around 62 ms
My teammate fluctuated between 45–70 ms due to ISP routing
We ended up with nearly identical responsiveness in-game
That moment made it clear that raw distance is not the only factor—routing quality matters just as much.
What We Learned as a Group
We summarized our findings into a few practical insights:
VPN does not always increase lag dramatically if routing is optimized
Perth-based exit nodes provided surprisingly stable paths to southern servers
Hobart users benefited more from consistency than raw speed
Background applications (voice chat + streaming) did not significantly degrade performance
We also noticed that peak-hour congestion mattered more than VPN usage itself.
Simple Comparison List
To make sense of the results, we compared three scenarios:
Direct connection (no VPN): fastest but inconsistent during peak hours
VPN via Perth: slightly slower but more stable overall
VPN via distant international node: unusable for competitive gaming
This helped us narrow down the best practical setup.
Was It Worth It?
From my perspective and our collective testing group, the answer is yes—but with conditions. The VPN is not a magic speed booster. Instead, it acts like a stabilizer when routing gets unpredictable.
We would not recommend it blindly for every gamer. However, for Hobart-based players dealing with inconsistent ISP routes, the Perth exit node approach is surprisingly balanced.
In the end, our experiment was less about chasing lower ping and more about finding consistency. And in online gaming, consistency often wins more matches than raw speed ever will.