![]() But of course, it depends on what you’re doing with it.įor an IRL streaming backpack, you really just need to maintain a consistent speed of around 30 Mbps despite all the real world issues (range, movement, interference, etc.). With our obsessive need to max out every internet connection, the Raspberry Pi 4 does disappoint us. The Raspberry Pi 4 is fine for speeds of over 200 Mbps with or without encryption. Depending on your setup the maximum speed you can get could be as low as 88 Mbps. Given that we were limited by 850 Mbps of available bandwidth to the server, we’re not sure that we ever saw anything like this device’s actual top speed. We never saw it deliver less than 773 Mbps on any test. If you need performance, the Odroid N2 is your device. The takeaways are similar to our last round of testing. The Raspberry Pi 4 has a dedicated bus to the built in the Ethernet card, and another multi-gigabit bus to the shared USB ports. We were quite surprised to see how much worse the Raspberry Pi 4 performed than the Odroid N2 (although, it must be said it is exactly twice as fast as the Raspberry Pi 3!). Bringing each packet in from the internet and then back out to the client over that same bus cuts the total throughput in half. ![]() The reason is the USB 2.0 bus which can only deliver about 300 Mbps of total throughput divided among all of the connected devices. When using two USB Gigabit Ethernet cards, it gets just over 50% of the speed it got using just one of those cards to connect to the internet. The Raspberry Pi 3B using the built in 100 Mbps Ethernet card is simply stuck at 90 Mbps throughput that built in card can deliver. Smaller packets coming in over the Ethernet cause it to use a bit more bandwidth on headers, which costs it a few percentage points of performance. Odroid N2 manages to deliver to its Ethernet client around 88% of the performance that it got running the iPerf client itself (780 Mbps / 808 Mbps). Internet Ethernet USB, shared over USB Ethernet This time, we test from a laptop connected to the shared Ethernet, with Speedify on, and encryption on :īuilt in Giga Ethernet, shared over USB Ethernetīuilt in 100 Mbps Ethernet, shared over USB Ethernet Some of the limitations below are with the available network bandwidth and not the devices themselves.Īs a reminder, here are the summarized results from the last round of testing – iPerf client running right on the Raspberry Pi / Odroid: Over this Internet connection, the available bandwidth for a single TCP stream to the Nova 2 server was typically around 820 – 850 Mbps. Tests were run on a Ubuntu 18.04 laptop connected to the Ethernet, using iPerf3 with a single TCP stream against the Northern Virginia #2 Speedify server (without Speedify running for the first test). Devices were set up to share the connection over Ethernet using the sharing options included with Speedify for Linux. Once again, each device is hooked up via Ethernet to a Verizon Fios Gigabit Internet connection. The developer has said he is working on better tutorials, and he also has a Discord server where he's very helpful.Premise: we want to find out which of the three devices is best for using as a wired router to share Internet over Ethernet. I have a slow and unreliable local provider with no data cap, and a faster LTE plan with a data cap, and I have them combined with the land-line set as Primary and the LTE as secondary and it has changed my household's online experience completely! Frustrations gone. Speedify bonds two or more internet connections for seamless load balancing and failover that won't drop a video call or anything, unlike load balancing and failover routers which don't do so seamlessly. It integrates Speedify internet bonding service (about $5/mo) and runs really well on a Raspberry Pi4. SmoothWAN is a free/opensource fork(?) of the OpenWRT router software. I have zero affiliation with Speedify or SmoothWAN, I pay for the Speedify service and donated a few dollars to the SmoothWAN developer.
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