The Arris SBG7580-AC SURFboard is another DOCSIS compatible cable modem and WiFi router from the SURFboard line of products. It’s another newer product offering from the world renowned network hardware manufacturer, Arris.
Some of the main differences between the SBG7580-AC and the Arris SBG8300 SURFboard modems are;
The SBG7580-AC has a more traditional box shape, whereas the SBG8300 is an unusual flat topped pyramid
SBG7580-AC modem includes a built-in cyber security feature from McAfee, which protects all devices that are connected to the hardware
The SBG8300 supports DOCSIS 3.1, the SBG7580-AC up to DOCSIS version 3.0
The 8300 model supports higher Gigabit speeds, (up to 10 Gbps). The SBG7580-AC is “best for cable Internet speed plans up to 600 Mbps”
Arris SBG7580-AC SURFboard
Activating the Arris SBG7580-AC SURFboard Modem & Router
So you got your SBG7580-AC modem and router in the mail, or bought one online or in-store. Now to set up the hardware and activate it. Watch the video below from Arris to get connected.
Video transcript: Hi. I’m Tom and I’m going to show you how simple it is to set up your new SURFboard cable modem and WiFi router. This video will feature the SBG7580-AC but setup is similar for all of the SURFboard models listed here, with some slight variations on some older models.
Always be sure to check the quick start guide included in the box for specifics on connections and LED indicators.
First, let’s review the contents of the box. It should contain the following, this SURFboard cable modem and WiFi router, the power supply, Ethernet cable and the quick start guide.
Now let’s set up your device. Make sure you have subscribed to a high speed internet service from your cable provider and that there is a live coax connection in your home. From that location, connect one end of a coax cable to a live cable outlet. Keep in mind the coax cable is not included. Connect the other end of the coax cable to your modem and hand-tighten the connections. Using the included Ethernet cable, connect it to one of the Ethernet ports on the back of the device.
This will allow you to confirm connectivity once setup is complete. Now connect the power supply to your WiFi modem and connect it to a power outlet.
There are two ways to activate your device. You may call your cable operator or you may try to self-activate. If you’re comfortable with the process, we recommend you try to activate the device yourself via a web browser.
Once connected to your WiFi modem via Ethernet or WiFi, simply open up a web browser and you will be redirected to your service provider self-activation page. You will be instructed on how to complete the activation process for your device on the service provider’s network.
If you are not redirected to the activation page or if the internet connectivity LED is not illuminated, you will need to contact your service provider for assistance. Be ready to provide the model number, the HFC MAC ID and the serial number located on the white sticker on the bottom of the device.
With the computer or mobile device you used to activate the modem, browse to www.surfboard.com to confirm you have internet connectivity.
For more information on how to configure your WiFi network settings, check out our video library on YouTube or you can find it on our website. Thanks for joining me.
Arris SBG7580-AC Surfboard Features & Specs
Includes McAfee Secure Home Internet built in security feature
2 year limited warranty
DOCSIS 3.0 compatible cable modem & AC WiFi router
32 x down and 8 x up DOCSIS channels
4 x 1 Gigabit ports
This hardware is used by home cable providers such as Cox, Spectrum, Xfinity and other Internet Service Providers
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
Fastmetrics forms multi-year partnership with San Jose Earthquakes
July 21, 2020 – The entire Fastmetrics team is pleased to announce that we have formed a multi-year partnership with the Bay Area’s very own Major League Soccer team, the San Jose Earthquakes. Fastmetrics is now the Official Business ISP of the San Jose Quakes, a MLS team with a long standing history in the Bay Area, which goes all the way back to 1974.
The Quakes franchise will utilize the business Internet services of Fastmetrics for all Internet communication needs, including a dedicated connection, which will assist power in-stadium WiFi for Quakes fans and the “Black & Blue family” at home games in San Jose, CA.
NEWS: Earthquakes partner with business internet provider @fastmetrics1.
— San Jose Earthquakes (@SJEarthquakes) July 22, 2020
Chief Operating Officer of the SJ Quakes, Jared Shawlee stated;
“We are thrilled to have Fastmetrics as part our the Earthquakes family. We believe that their services will not only properly serve and enhance Earthquakes Stadium, but also provide a quality game day experience. We are excited to work with Fastmetrics and would like to thank them for their support and partnership with the Quakes”.
Here’s another video testimonial from Jared;
Fastmetrics CEO & Founder, Andreas Glocker also commented;
“We are pleased to have the opportunity to sponsor the Quakes, an established team with a long history in San Jose and the Bay Area. We look forward to supporting the business Internet service requirements of the Earthquakes and powering in-stadium connectivity for fans. As a local Bay Area provider playing in the big leagues, we feel a kinship with the Quakes’ mission and are glad to be on their team”.
The full press release from the San Jose Earthquakes can be seen here on their official website.
Stay up to date with all things Quakes by following on social media. See the latest game information, as well as player, coach, team updates and news;
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
Arris needs little introduction – it has been around for more than 60 years and sold more than 200 million modems worldwide. Among many achievements and pioneering moments, Arris invented digital TV, and was the first company to bring DOCSIS cable modems to the retail market. The Arris SBG8300 SURFboard is a newer modem / router offering. It stands out for its popularity, performance and unique construction shape. Arris has also recently launched a line of in-home mesh WiFi systems that support WiFi 6 connectivity, called SURFboard MAX. Arris SURFboard modems and routers are utilized worldwide and are the choice of hardware provided by various Internet Service Providers.
The Arris SBG8300 SURFboard Modem
How to setup the Arris SBG8300 SURFboard Modem & Router
So you’ve received your Arris SBG8300 SURFboard in the mail from your ISP, or bought one in-store. How do you set it up correctly? What’s key to connecting it to your home wireless network? Watch the below video from Arris, to start enjoying your Internet service.
Video transcript: How to set up the SURFboard SBG8300 DOCSIS 3.1 cable modem and router. This video will show how easy it is to set up and install your ARRIS WiFi cable modem and establish a secure network connection. This video will feature the SBG8300 DOCSIS 3.1 cable modem and router. Always be sure to reference the quick start guide located in the box for the specific model you are using.
First let’s open the box. Your box should contain the following. The SURFboard SBG8300 WiFi cable modem, a power adapter, Ethernet cable and a quick start guide. Before we begin, please note that cable internet service is required.
Now we will begin installation. Find a spot in your home you would like to place your WiFi cable modem. Ideally it should be easily accessible and within reach of a power outlet and a coaxial cable. Keep in mind the coaxial cable is not included in the box.
The more centrally located, the better the WiFi coverage. Connect the coaxial cable to the cable connector on the rear of your modem. Use your hand to align the threads and turn clockwise repeatedly to tighten the connector.
Finally connect the power cord to the power port and plug it into a wall outlet. Make sure that the outlet is not controlled by a wall switch. Your WiFi modem will begin powering up. Check the front LED panel as it starts up.
Start-up, software updates and provisioning by your service provider may take five to six minutes. No need to watch the unit during this process. When start-up is complete, the online LED should be lit solid. When you connect your WiFi devices to the SBG 8300, the WiFi LED will be lit. If no WiFi devices are connected, the WiFi LED will flash.
Please refer to the user guide for more information. After start-up is complete, you can test the internet connection. Connect a WiFi-enabled client device such as a mobile phone or a tablet to the SBG8300 and open a web browser.
They should redirect you to your service provider’s activation page, providing instructions on how to activate service to the modem. If at any time during this process you have any trouble, simply call your cable internet provider for assistance. Please have your service provider account information and the SN and Mac addresses from the unit label found in the quick start guide and on the bottom of the SBG-8300.
Once activated, confirm connectivity by opening a web browser on your connected client device. Type in a valid URL in the address bar such as www.surfboard.com and press “Enter”. The website should open.
If it does not, please contact ARRIS consumer support at 1-877-466-8646. Front panel LEDs are your guide to the WiFi modem’s operation. The power LED will illuminate blue when the power is on. If the power LED doesn’t light up, please check the power cord and your electrical wall outlet. The WiFi LED will illuminate green when devices are connected.
If at any time during set up you have questions about LEDs, we’re here to help. Contact the ARRIS technical support team at 1-877-466-8646. For help setting up and configuring your WiFi network, please visit our video library on YouTube. You can also visit the ARRIS support website at www.arris.com/consumers for additional resources.
Enjoy your secure, ultra high speed connection powered by ARRIS. Learn more about SURFboard networking products at our website.
Arris SBG-8300 Surfboard Features & Specs
– 10+ Gbps DOCSIS 3.1 Download Speeds
– 32 x 8 Modem Channels
– 2 downstream x 2 upstream OFDM channels
– 3×3 on 2.4Ghz and 4×4 on 5Ghz MIMO antenna configuration
– Four 1 Gigabit Ethernet Ports
– Dual-band concurrent AC Wave 2 WiFi
– Supports IPv4 and IPv6 IP addresses
– 2 Year Limited Warranty
– Compatible with most major United States Cable Providers
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
What is Ethernet and how does it work? Which type of Ethernet cable should I use? All these questions and more, answered below. Watch the videos or read the information below. Learn more about what Ethernet is and what it can do for you or your network, at home or at your business.
What Is Ethernet?
In the below video from Sunny Sun find out what Ethernet is (also known as the IEEE 802.3 standard). Sunny is an Associate Professor of Cyber Security at the University of Saint Mary in Leavenworth, Kansas. He teaches courses such as networking, cyber security, computer forensics and programming. In the below video, Sunny explains 7 key things about Ethernet, right down to where the name ‘Ethernet’ comes from.
Video transcript: Hello and this is Sunny. Welcome back. Today my topic is Ethernet. What is ether? Ether was once thought to be media carrying light throughout the universe.
Ethernet was named for IEEE 802.3 standards in a way that physical media could similarly carry data everywhere throughout the network. Ethernet refers to a family of a local area network technologies or LAN technologies that share some main features. The implementation of the network might be different. But the basic topology, frame type and network access method remain the same.
7 things you should know about Ethernet:
Ethernet is a local area network (LAN) technology and is the most widely-installed LAN technology. Ethernet has largely replaced other competing LAN technologies such as Token Ring, FDDI and ARCNET.
Ethernet technology operates at a both physical and a data link layer of the OSI model.
Star-bus topology is a standard Ethernet topology.
In terms of cabling, an Ethernet LAN typically uses a TCP/STP fiber optics and a coaxial cable.
Ethernet media access method is CSMA/CD, e/212332weCarrier Sense Multiple Access with Collision Detection.
There are many versions of Ethernet speeds; 10 megabit, 100 megabit, 1 gigabit, 10 gigabit, 100 gigabit and even more.
Last but not least, seven. Ethernet is a base band system.
Please check out my playlist “Ethernet Basics” if you want to know more about Ethernet and some concepts mentioned in this video.
What Ethernet Cable To Use – Cat 5 Cat 6 Cat 7?
With so many options and category variants available, what Ethernet cable should you use? Below is a cable explainer from ThioJoe. Joe hosts one of the most popular technology explainer channels on YouTube, with more than 2.4 million subscribers. He takes a look through the options for Ethernet cables, from cat 5 through to cat 6 and 7.
Video transcript: If you’ve ever gone to buy an Ethernet cable for any reason, you may have noticed that there are several different types to choose from. Some of them may say Cat 5, Cat 5e, Cat 6, Cat 6a. But what do all of these mean and does it really make a difference which one you get?
Well, that’s what we’re going to talk about today. So you can know what’s worth buying and potentially save some money and also I’m going to go over a real world test to see how much of a difference it makes in your own home internet.
So first of all, what the heck do the cat ratings mean anyway? Well, for Ethernet cables, that stands for category and the different numbers represent different standards and specifications for each type of cable. So you can think of them like different versions. Now the good news is that all of these cables will typically “work” since the new versions are all backwards-compatible. They all use the same RJ-45 connector, often just called the Ethernet port. But the difference in the different ones are the rated performance of each.
The Different Types Of Ethernet Cable
So let’s go over all the different types of Ethernet cables you may come across from Cat 5 all the way through Cat 7 and beyond. The first type is really common which you probably already heard of. It’s called Cat 5. However these days, when someone says “Cat 5,” they’re probably referring to the newer version of Cat 5e, but we’re getting a little bit ahead of ourselves with that.
Now a true Cat 5 cable is actually obsolete and you probably can’t even buy them anymore. A Cat 5 cable is only rated for up to 100 megabits per second at 100-meter maximum length and that’s with a 100 megahertz bandwidth.
So obviously only being rated for 100 megabits, you’re almost never going to see these anymore because usually one gigabit is kind of the minimum and if you’re still using one, you should definitely replace it. Because in addition to having a slower speed, it also might be less reliable than the new types we’re going to talk about in a second and this brings us to Cat 5e which I just mentioned and the Cat 5e stands for category five “enhanced”.
So Cat 5e is very common these days and it’s rated for one gigabit speeds at 100 meters as opposed to the original one. It’s just 100 megabit and again this has a bandwidth of 100 megahertz and this is due to the improved specs regarding twisting of the wire pairs inside, shielding and other improvements which reduce “cross talk” or the interference of the different signals, which would reduce the speed. Also a regular Cat 5 cable only required two twisted pairs of wires inside while Cat 5e uses four. So obviously it can transfer more data. A Cat 5 cable may have had four but it only required two.
So an important thing to note is that the ratings certifications are for the bare minimum specs. So it’s very possible that a cable will be capable of much more than what it’s rated for. So for example a Cat 5 cables might actually be capable of close to gigabit speeds if it’s a really high quality premium cable even though it’s older and the same will go for all of these other types. It’s just the rating is basically a guarantee. After Cat 5e came Category 6, which bumped the spec from one gigabit to ten gigabit at 55-meter length and with a bandwidth of 250 megahertz up from 100.
By the way, the bandwidth refers to the range of frequencies that the cable is able to reliably use, which explains why it would improve the speed. It has got more “space” to fit the data in a way and the Cat 6 further reduces cross talk. That’s kind of the main way to improve the speed in addition to the bandwidth using tighter wound wire pairs and may also use things like a plastic core through the middle of the cable to better separate the internal wires and things like that.
I would say Cat 6 is a good choice if you’re really not sure what type of cable you’re going to need since it probably won’t be that much more expensive depending on where you buy it and it will future-proof your cable for a while. You will probably be able to use it for the near future.
But this is especially important if the wire can’t easily be replaced. Like if you’re wiring a house for example where it would just be in the walls forever, I would definitely get at least Cat 6, probably even one of the higher-rated ones we’re about to talk about.
But if you’re just buying a general purpose Ethernet cable for your laptop or something, Cat 5e would definitely be fine as well since I doubt any of your devices right now are going to be capable of 10 gig anyway. So Cat 5e, Cat 5, 6, whatever you want. So by now you might be thinking, “OK. Surely Cat 6 is pretty much the best. I mean why would you need anything more than 10 gigabit, right?”
Well, you might be right but we’re not going to stop there. What fun would that be? Because there’s also a Cat 6a and this is one is also capable of 10 gigabit but at a longer maximum distance of 100 meters instead of 55 and it has a larger 500 megahertz bandwidth. So if you are actually creating a 10-gig network, Cat 6a will be more reliable at getting your full speed since again it has got further improved specs for reducing that cross talk. It’s just going to be more reliable.
Now finally the big daddy of the Ethernet cables for now at least is Category 7. As far as I could tell, this is the fastest type you can buy at the moment. There are other cables that like claim to be Category 8 but I don’t think they truly are. Cat 7 is also ready for 10 gigabit speeds but with a higher bandwidth of 600 megahertz, even larger than the 500, and it has got the strictest specifications for reducing cross talk such as requiring shielding between individual wire pairs in the cable as well as for the whole cable itself.
This seems to be all about improving reliability. Not necessarily the speed since it doesn’t actually improve anything about 10 gigabit, even though it probably is capable of higher speeds if you had a switch that was capable of faster than 10 gigabit on that side.
So I think Cat 7 might be best suited for extreme future-proofing, permanent wire installations for people who are not just satisfied with the best but rather want the completely unnecessary. So if you’re wiring a house and you just want to go all out, get Cat 7. All right. So we’ve learned that there are tons of different Ethernet cables you can use. But does it even really matter? I wanted to find out. So I decided to do a quick real life test.
I got three different cables, a Cat 5e, a Cat 6 and even a Cat 7, all the same five-foot length and I wanted to find out if it would make a difference when I used it with a gigabit internet connection since that’s really the fastest internet you’re going to get right now anyway. And yeah, I know I could have done a logo gigabit test but I wanted to do it this way. It’s a little bit more practical I think.
So for this, I’m simply going to connect my laptop directly to the router using each cable and to make sure there’s no limiting factors, I have the router connected to the fiber optic intake with the Cat 7 cable, so there’s no limiting agent there.
So Which Ethernet Cable Is Best?
Just looking at the three cables I used here for the test, this is the Cat 5e. It’s definitely the thinnest. Although it’s not flimsy or anything. Then the black one is the Cat 6, definitely a little bit thicker and then of course the Cat 7, there are some noticeable differences. It’s very rigid. You can tell there’s a lot more shielding in here and it has got a metal connector. So definitely way higher construction quality.
So I went and did all that. And what was the difference? Well, none at all. As I pretty much expected, with such a short distance at only five feet, all the cables were more than capable of handling the gigabit connection. I had also tested the upload speed but it was very inconsistent even between tests of the same type of cable. So I just didn’t consider that in this one.
Then out of curiosity, I did a speed test on my desktop which is plugged into the port in the wall. So in that test, I would guess it had maybe an extra 50 feet of Cat 6 cable to deal with, as opposed to the other control test, and the speed only dropped less than 10 megabits. So even with about 50 feet of Cat 6, the loss was less than one percent of the speed. So really it’s not that big a deal.
So the takeaway here is that unless you need to worry about future-proofing your connection, it really doesn’t matter what type of cable you buy. Perhaps if you have tons and tons of cables right next to each other, it’s like really electronically noisy or something and you need that shielding. The improved shielding on the better categories might help you. But in all other cases, it really shouldn’t matter at all.
Now after looking at all this, you may be wondering, “What’s the point of all these other cables if you can’t even really use them, if it doesn’t make that big of a difference in most situations?” Well, part of it is marketing since it’s easy to say you need the better cable with the higher number, which of course costs more. But there is networking hardware out there that is capable of 10 gig internet. It’s usually commercial equipment though.
However, we are starting to see some 10 gigabit consumer-grade switches out there. For example, there’s the new Asus XG-U2008 switch, which has two 10-gigabit ports. It’s only about $250, much less than what you would spend on an enterprise switch, along with a regular gigabit port.
So you could hook up your computer and maybe a network storage device to the 10-gig port. Then everything else would go into the regular gigabit ones. That way, even if none of the other devices on the network are capable of 10 gigabit, it would allow multiple one-gigabit data transfers to multiple devices simultaneously.
So the 10-gigabit NAS or storage server will be able to provide out that 10 gigabit and then it could kind of be leeched off by as many devices as you want or of course you could do a full 10-gigabit transfer between the two devices plugged in. So between the server and your computer, if they’re both plugged into that other port.
In that sort of situation though where you do have 10-gigabit capability, you would need Cat 6 or higher at least for those two 10-gigabit ports and if it’s over any kind of distance, Cat 6a would be ideal because you’re going to get that better reliability. Even if it’s not that big of a difference, you still may as well. But something tells me that not too many people are going to be using 10 gigabit for a while. So I guess from all this, my takeaway is that even the old Ethernet standards have held up surprisingly well. I mean believe it or not, the RJ-45 connector used in all these Ethernet cables was first standardized in 1987. At that time, the minimum spec was only three kilohertz bandwidth and now it’s getting into the gigahertz.
So I think it’s safe to say that the connector will probably be here for a while. It’s not going anywhere anytime soon since it seems like there’s still a lot of room for expansion. We might even see 100 gigabit. Who knows?
So I think that is it. Hopefully guys, you thought this video was pretty cool and interesting. I would love to hear what you think down the comments section. Are you still using old Cat 5 cables you didn’t really know about? It usually says it printed on the side if you’re not sure. Or do you need that full 10 gig speed? I don’t know.
I myself kind of went crazy recently. I bought a bunch of Cat 6 and Cat 7 cables since I could never seem to find any Ethernet cables when I needed them. So I’m like, “May as well get the best,” and I’m actually using the Cat 7 cables to connect all the most important stuff in my network like the router and the switches hooked up to it for a maximum performance just in case. You know, even if it doesn’t make that big of a difference, I want to have the best and remove all doubt where it might matter.
But anyway, if you guys did enjoy this video, be sure to give it a thumbs-up. I would appreciate it and if you want to keep watching, I will put some other videos right here. You can click on these even if you’re on a phone and if you want to subscribe, I make new videos every Tuesday, Thursday, Saturday and also consider clicking the bell next to the subscribe button for notifications or else YouTube might not even show you the new videos at all.
So thanks again for watching guys. I’m looking forward to hearing from you and as usual, I will see you next time. Have a good one.
Why Is WiFi Slower Than Ethernet?
High speed WiFi services such as WiFi 6 are now possible today, with compatible hardware now rolling out. But wireless is never going to beat wired for speeds. Linus over at the Tech Quickie channel created a video to explain why an Ethernet connection via a cable, will almost always be faster than a WiFi connection.
Video transcript: Thanks for watching Techquickie. Click the “Subscribe” button. Then enable notifications with the bell icon, so you won’t miss any future videos. So picture this. You just wired your desktop PC up to some uber fast internet connection which is like super exciting because surely this will be no more lagging out of your favorite game or thrilling Skype dates. Then eager to experience this kind of speed on your laptop or mobile device, you buy a fancy-looking WiFi router. You key in your password and – wait, what? Your speeds aren’t even half of what you’re getting with the wired connection. What gives?
Well, unfortunately, wireless is pretty much always going to be slower than wired. It’s a near universal truth that becomes more and more obvious the faster you try to go, even if you spend tons of money on high-end wireless gear. But then – OK, now bear with me here, because EM waves do move faster through the air than electrons do through a wire. So what is it? Well, let’s start with the most obvious, signal range.
If you’re using an Ethernet cable and you want gigabit speeds, you can have a cable run of up to 100 meters. That’s roughly as long as a football field. This is because the signal inside the cable doesn’t deteriorate appreciably until you have a longer cable run.
But radio signals flying through the air such as WiFi are much more prone to signal degradation. Unlike a physical cable which has a copper wire inside that only carries network traffic and is wrapped up in materials to shield the signal from interference, WiFi signals are just blasted everywhere, meaning they have to compete with walls, your roommate’s microwave and other network traffic.
You see, unlike Ethernet where your device gets one dedicated pipe that runs to your modem or your router, there’s only so much spectrum available for your WiFi enabled laptop and your phone and anything else. What that means is that your device will often be broadcasting on the same frequency or channel as others, which can lead to more interference that can further degrade the signal and give your router more work to do to sort it all out.
But OK, hold on a second Linus. You can hook up lots of wired devices to a router as well. So doesn’t your router have to figure out where all those different signals are supposed to go? Yes. But WiFi and Ethernet have different strategies to combat packet loss, which is exactly what it sounds like, when a chunk or a packet of data doesn’t reach its destination.
Oftentimes this can occur due to a collision, when two devices try to transmit it at precisely the same time. If this happens, the packets have to be resent. So the way that an Ethernet connection avoids collisions is that once the sender determines that its path to the destination is clear, it sends the packet immediately. If the path is busy, the sender will send the data as soon as the path is clear again. WiFi on the other hand introduces a small delay once the path becomes clear.
The idea is that since a wireless router can’t magically detect a collision in midair, this delay reduces the risk of collisions. But as it does so, it also adds more latency. And although many leaps in WiFi technology have been made over the years, it still resembles much older school communications protocols in one important way. It is half-duplex, meaning that a WiFi gadget’s antenna can only be sending or receiving at any given moment, not both.
Now full duplex wireless is in the works but it’s still experimental and suffers from its own special kind of interference that results from the antenna trying to deal with both inbound and outbound signals at the same time. By contrast, Ethernet has been full duplex for quite some time now as it’s not difficult to simply put one wire in for transmitting data and another one for receiving it on the same cable.
So all other things being equal, don’t be surprised if your Wi-Fi connection always seems just a bit slower even if you do walk around with your smartphone neurotically duct-taped directly to a router.
Just please, please go faster. Speaking of going faster, if you’re a freelancer or a small business owner and you want to get your work done faster, check out FreshBooks. FreshBooks is the cloud accounting software that’s designed for the way you want to work and it’s the simplest, easiest way to be more productive, more organized and perhaps most importantly, get paid faster.
You can create and send professional-looking invoices in less than 30 seconds. You can set up online payments with just a couple of clicks to get paid up to four days faster and you can see when your client has seen your invoice to put an end to the guessing games. So don’t take my word for it. Try out FreshBooks for free. They’ve got a 30-day free trial available to our viewers down below and then guys, when you do sign up, that’s www.FreshBooks.com/Techquickie. Make sure you enter “Techquickie” in the “How did you hear about us?” section.
So thanks for watching, guys. Like, dislike. Check out our other videos. Don’t forget to leave a comment if you have suggestions for future As-Fast-As-Possibles. We do read those things, you know, and subscribe because if you don’t subscribe, bees, bees will eat your hair. They do that, you know. It’s not a misinformation. We’re a tech channel. People aren’t expecting biology factual accuracy.
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
To support remote workers, communication and collaboration between teams and anyone, Fastmetrics now provides free video chat via meet.fastmetrics.com. Video conference completely free, with unlimited HD video calls. Meet with your team or anyone using your desktop, laptop or mobile. See our guide below on how to setup a video call and invite people to your meeting.
Note: The Chrome web browser is recommended by both Mac and Windows users to support the meet.fastmetrics.com free video call solution. For ALL browsers and some VPN users, ensure your VPN is not auto blocking WebRTC and that WebRTC is enabled in your Chrome browser.
Fastmetrics Free Video Chat – 10 Benefits
No sign up, account or software required
Free video calls (no time restrictions)
End to end encryption
Fully featured video and audio conferencing
Screen share and moderator options
Integrated chat messages with emojis (web only)
Managed video quality with HD, standard or low bandwidth settings
Participant talk time stats
Live stream function
Backed by the Jitsi open source developer community
Click the blue ‘GO’ button, after the random meeting name generator populates in the white ‘Start a new meeting’ field. This creates your unique call URL, which you can now setup.
Alternatively, create your own descriptive meeting name in the ‘Start a new meeting field’ and please the blue ‘GO’ button.
Clicking ‘GO’ creates a meeting URL in a new tab in your browser
On the new meeting URL in your browser, create a meeting password (if desired).
Copy the URL from your browser (or from the ‘information’ or white circle with an ‘i’ on it)
Share your unique meeting URL with participants via email or your messaging service of choice
As the creator of the video call URL, you control the sharing of the URL and a password, if you choose to use a password
Are video calls high quality?
The Jitsi tech, which powers our free video calls, offers HD video conferencing. This can be adjusted to standard definition and also low bandwidth options. (It is important to remember that Internet connection quality and bandwidth can influence call quality). To preview video call quality, we encourage anyone to launch and try a free video call with meet.fastmetrics.com. Below are screenshots from a MacBook and a Lenovo laptop, for a two person call. As well as a three person video call, using the same laptops and an iPad.
2 Person Video Call Using A MacBook & Lenovo Laptop3 Person Video Call Using A MacBook, Lenovo Laptop & iPad
How do I setup a free video call from my mobile or cell phone?
For iOS or Android devices, install the free Jitsi meet app on your phone or mobile device.
The app is similar to the desktop version. You can now start free video chats directly from the app in your mobile device, or follow the below steps to start a call using the Fastmetrics video conferencing platform;
Click ‘Continue to the app’. This will start your video call in the Jitsi meet app
Use the ‘Invite others’ button to share your audio or video call with others
How many people can I have on a video call or conference?
‘Hard’ limit of 75 call participants is recommended
35 participants is the optimal ‘soft’ limit for a single call, to ensure high quality video
It is possible to add more participants than the ‘hard’ limit, if video is switched off for all users (especially for those with slow Internet connections)
It is also possible to reach a wider audience using the live stream feature, which will broadcast a call or conference via YouTube
The Jitsi developer community is currently looking into raising the ‘hard’ cap on a single call to 100 participants. A release is expected soon to upgrade this number.
How do I know my video chat or conference is secure?
Firstly, the Jitsi technology which powers Fastmetrics free video chat and audio calls is fully encrypted end to end. It is highly secure for two person calls to multi-party conference calls. A meeting room only becomes active, after the first call participant joins. Meeting rooms, chat data and speaker stats are all ‘destroyed’ when the last call participant leaves.
Secondly, it is highly recommended to set passwords on your video calls (although optional). It is easy to do though and adds an extra level of security. A password can be added or edited within the ‘information’ or white ‘i’ circle, in the bottom right of the screen call on a desktop or laptop. To do this in the mobile app, click in the ‘More options’ menu. Passwords must be shared by you, with meeting participants.
Finally, only share meeting URLs with required participants. Do not share or advertise meeting room names on public pages, websites, forums or social media channels. Unless you want strangers popping up in your video conferences!
Can I save a meeting for recurring video calls?
Yes. Every meeting created by you, is saved as a meeting name only in your browser @ meet.fastmetrics.com or in the Jitsi meet app. Video and audio are not active in this state. (Only the meeting name is saved, not the call). Additionally, dates and times that calls occurred and duration are also provided. For recurring calls, simply click on the link to reactivate the call, then share the link with participants you want to join.
Tips For Creating Secure Video Meeting Names
Tip 1: This free video call solution offers a random name generator. See it in action automatically in the ‘Start a new meeting’ field. Subsequently, it is not a requirement to create a new meeting name at all to create a call. Just click the blue GO button, after the random generator has completely populated a random meeting name.
Tip 2: If you do want a custom meeting name in the ‘Start a new meeting’ field, use descriptive, longer words. This reduces the chances of an unwanted guests joining your call or video conference. (Especially for large scale organizations or meetings with a lot of interest).
Example 1: https://meet.fastmetrics.com/videocall – very broad. Easy to guess. Unsafe. Example 2: https://meet.fastmetrics.com/fastmetricsvideocallmaytenth – descriptive. Unique brand name. Safer.
In light of recent and fast moving events due to the global Coronavirus (COVID-19) pandemic and the Public Safety Order issued for San Francisco residents, Fastmetrics would first and foremost like to inform all customers and the public, that we remain open for business and continue to provide essential Internet, voice and network services.
Key Fastmetrics COVID-19 (Coronavirus) Info
We continue to operate as an ‘essential business’, providing essential services to businesses, under the Public Safety Order for San Francisco.
Our local support team is ready and available for all business customers throughout the Bay Area, California and the USA.
Our service availability remains unchanged, across all our business connectivity, voice and managed network services.
We launched unlimited FREE video chat and conferencing, to support remote work, team collaboration and personal video communications for all. (No sign up, account or software needed).
New Fastmetrics Working Arrangements – Same Support Levels
Health is our number 1 priority. We have implemented new workplace and staff flexibility arrangements, to ensure the health and safety of our employees. Also for the wider San Francisco Bay Area community. We have put in place additional work from home and remote working policies for Fastmetrics technical and support staff. This is to reduce exposure and limit the spread of Coronavirus (COVID-19). These changes are in accordance with the new Public Health Order, issued by Mayor London Breed and the City and County of San Francisco, on Monday March 16th.
Only skeleton Fastmetrics staff will continue working out of our San Francisco head office, on an as needed basis. These arrangements will be in place until further notice. Or, until more updates to the Public Health Order are made. At this time, the Public Health Order runs until April 7th, 2020. (It may be extended).
COVID-19 Specific Assistance For Businesses
Our support team is actively working with our business customers to assist them implement work from home arrangements. These include switching to our mobile apps and soft phones for business voice communications. Also setting up VPN connections for secure connectivity, for customers with compatible equipment. If you are an existing Fastmetrics customer or would like to discuss how we can help your team work from home or remotely, please contact our support team, via one of the methods listed here.
California & San Francisco Coronavirus Cases / Stats / Tests
Check updates on California and San Francisco coronavirus stats including infections, fatalities and recoveries. Click on a specific county to check area specific data. Note: numbers and statistics may not be current. Sourced via ca.gov.
Novel Coronavirus (COVID-19) Public Health Information
For thorough public information on Coronavirus, we highly recommend reading these links and documents from the San Francisco Department of Public Health. These resources include information on the following;
What social distancing means and recommendations
Current Public Health Orders issued by the City and County of San Francisco
Public transportation safety information
Information on social events and public gatherings
Please see further resources about schooling, coronavirus testing, health care, travel and general Q & A by clicking the link above.
What can you do to stop the spread of Coronavirus (COVID-19)?
It is important right now for everyone to stop or limit the spread of germs. This is paramount to prevent further cases of Novel Coronavirus or COVID-19. Below is an infographic from the Center of Disease Control, recently issued. This infographic highlights some simple steps everyone can take right now to help stop the spread of germs;
More information can be found on how to protect yourself from Coronavirus, or what to do if you think you are sick, at the Center For Disease Control COVID-19 page here.
Videos: SD-WAN vs MPLS Network Technology Explained
In this post we take a look at two different network technologies; SD-WAN vs MPLS. Both are still widely used in networking today. There’s a lot of different opinions out there on which is better. A Software Defined Wide Area Network (SD-WAN for short), is certainly the latest of the two services. Whereas the history of MPLS (Multi Protocol Level Switching) dates back to the early 1990’s.
Which has the better performance for your network?
What are the connectivity requirements of each?
Which has better security?
All good questions. We have two explainer videos below to answer those questions and more. Let’s take a look. Here’s an explainer video from Pat Herron at Chicago based TMSP Nitel. In the below video, Pat takes an objective looks at MPLS vs SD-WAN, as network solutions.
Video transcript: Thanks for joining this segment of From the Guys in Orange. I’m Pat Herron, the Vice President of Product Management here at Nitel. From the Guys in Orange is a video series we’re putting together to help our partners and their customers learn a little bit more about the topics of networking.
One of the questions we get asked quite a bit is, “Will SD-WAN replace MPLS as the leading network technology?” A lot of agenda and a lot of voices and a lot of opinions on this topic. But we’re going to look into some facts. What makes an MPLS network or an SD-WAN network? What are the features that make one more compelling than the other?
That’s how we’re going to spend our time today. To provide a framework for this discussion, let’s assume that the MPLS network is being provided on one circuit by a service provider over a carrier-grade private network with a typical service level agreement. It’s also assumed that the SD-WAN is being provided over two internet circuits. One, a carrier-grade dedicated internet service and the other cable provider broadband internet service.
SD-WAN vs MPLS: Which Has Better Packet Delivery?
In order for any application to work, the data packets that make up that application have to get to their destination. A carrier-grade MPLS network will offer packet delivery in the 99.9 percent range, meaning that only one in a thousand packets is lost in transit. This is typically backed up with a Service Level Agreement that puts money behind that performance metric. Data delivered over the public internet typically can have one percent or more packet loss, meaning that over one in a hundred packets may be lost along the way.
A few broadband providers offer meaningful Service Level Agreements for packet loss and during times of heavy network congestion, they may even have higher levels of packet loss, which makes having two or more internet connections super important for an SD-WAN solution.
The SD-WAN solution, depending on the technology and the service provider delivering it like Nitel, can use methods to mitigate packet loss over the SD-WAN. Methods like Forward Error Correction that inserts parity bits into packets and those parity packets into the data flow allow for the SD-WAN to recover packets that may be lost along the way. So net-net. An SD-WAN solution, if designed well and implemented correctly, can offer packet delivery on par or at least very close to what an MPLS network can provide.
Application Prioritization and Performance: MPLS vs SD-WAN
Let’s turn our attention to application prioritization and performance. One of the benefits of having a private data network is that you get to prioritize which applications are going to flow over the shared resources and in that way, you can assure that applications will perform well. An MPLS network can offer three or four or even seven queues. These are priority tiers into which applications are mapped. The challenge for the network administrator is to identify and tag those applications and then map them into the appropriate queues and approach what we call “quality of service” or QOS.
This tagging and mapping can be both challenging and cumbersome. But it’s a proven approach that IT professionals know and rely upon. On an MPLS network, the quality of service is honored from end to end on the network so that the prioritization that goes in on one end is honored throughout the network and then still honored at the far end. This is very reliable and IT pros really like that level of reliability. An SD-WAN solution may offer dozens of queues into which applications can be prioritized and SD-WANs come with tools that allow for the identification of hundreds, even thousands of applications which really simplifies the mapping of those applications into queues.
This makes the task of prioritizing applications for the SD-WAN network a lot simpler both to set up and to make changes. Plus an SD-WAN solution with a good analytics and reporting platform can provide the IT pro with clear visibility at each application’s performance. As good as this sounds, when an SD-WAN prioritizes applications to be carried over the internet, they’re prioritized when they’re leaving on one end. Then they’re subject to the worldwide wide web which may not mean those packets are still in the same order when they arrive at the far end.
So what’s the net-net? Application, prioritization and performance is more guaranteed on an MPLS network than they are on an SD-WAN solution. But an SD-WAN solution provides a lot more tools and can make the act of prioritization a lot simpler.
Example MPLS application and service prioritization by Fastmetrics
SD-WAN vs MPLS Reliability
Let’s turn to reliability. There’s a short story on this one. Two circuits are going to be more reliable than one. Many businesses back up their MPLS networks using a failover solution to an internet connection using DGP and a VPN to then regain access to that private network.
The challenge with this approach is that businesses are paying for backups that they don’t really have much of a use. They’re not always tested and may not work as expected when the time comes. Even if they do, it takes a little while to fail over. So session-based applications like phone calls could be interrupted. The SD-WAN solution relies on multiple internet access links and is fully aware of the condition of those access links at any given point in time. Not just hard-down conditions but also degradation of circuit quality.
High priority applications can be routed over the best available path at any moment, including the moment one of the access links fails. Depending on the SD-WAN solution design, like the ones from Nitel, even a phone call will not be interrupted. So net-net, the SD-WAN solution provides a simple and powerful way to improve application reliability.
Is SD-WAN or MPLS More Secure?
Let’s turn our attention to security. MPLS networks are considered secure because only MPLS nodes that are reading the packet labels destined for that node can see the contents of the packets and the MPLS network is provided by one trusted service provider. So even though it uses shared network resources, businesses have relied on MPLS to provide secure site-to-site communication for years. SD-WAN creates a secure tunnel for packets to traverse between sites of the network using a form, a virtual private networking connection, such as IP sec.
Since there are multiple paths between the sites, traffic can be distributed across the paths, making snooping even more difficult. So even though it’s riding over the public internet, the SD-WAN provides proven methods to keep the application traffic secure and depending on the SD-WAN provider, additional network security services can be layered on top of the SD-WAN service.
For example here at Nitel, we offer a next generation firewall and a unified threat management service on the same platform, the same hardware and the same portal as our SD-WAN service. This really adds to simplicity. It can improve cost performance. So net-net, is SD-WAN or MPLS more secure? Both employ proven methods to keep customer and business data secure.
Will SD-WAN Replace MPLS?
So will MPLS be replaced by SD-WAN and if so, when? A recent market survey done by a leading global cloud network provider found that 29% of IT leaders indicate that their companies have deployed or considering deploying SD-WAN in the next 12 months. Plus 30% more are considering SD-WAN but don’t have a date in mind. But what’s really interesting is that of those, 62% report MPLS investments will increase or remain unchanged over the next 12 to 24 months and 53% expect their SD-WAN deployments are going to drive increases in their investment in network security.
So what’s the upshot? The move towards software-defined networking is undeniable. The growth rate and adoption over the coming years will be accelerating. But that doesn’t mean that MPLS is going away anytime soon. It’s a tried and true technology that’s relied upon the world over by IT professionals and it’s going to be around for years to come.
Hopefully this video provided you with a little bit of information about how software-defined networking is shaping our marketplace and I hope that you check back frequently to Nitel’s YouTube Channel to find out more from The Guys in Orange.
SD WAN vs MPLS Explainer Video
In the below video, Australian based business fibre and network service company Vocus, takes a look at SD WAN vs MPLS services. Like many services, some things are a better fit for specific use cases. There’s pros and cons to each. Take a look;
Video transcript: An SD-WAN service connects business locations through multiple network providers across any distance. Regardless of the type of service, whether it’s an MPLS or broadband or 4G, an SD-WAN can aggregate them all to create a single seamless connection that provides greater control.
The latest developments in SD-WAN offer a lot of benefits for businesses that have challenges with their remote networks or need traffic prioritization. But while SD-WAN has clear benefits, smart companies and proceeding cautiously and with good reason. Your business and your employees need to be ready for SD-WAN. And only an expert network provider can guide you through that process. Transitioning to a network that uses both physical and virtualized technologies requires specialized knowledge. And understanding exactly what you want out of using a hybrid network like this is critically important.
What are you trying to achieve? How would the change impact your team structure? How will it affect your everyday processes?
You may find that just the process of re-architecting to a smarter network can solve your problems without the capital costs and projects risks. On top of this, because SD-WAN moves the responsibility of service to the customer and away from the carrier, any SLAs for your network can be easily compromised when routing is bypassed via SD-WAN. There is definitely a place for SD-WAN when it’s properly defined and architected.
The support for multitenancy, scalability, and improved access to cloud-based applications are very compelling benefits. As is the built-in automatic failover, dynamically replacing a lost connection with the best option to get the fastest, most stable solution.
So while SD-WAN isn’t a catch-all replacement and has major business changes to consider, it’s a great option for specific used cases. And when implemented correctly, can offer very handy benefits. If you have any more questions think your business could benefit from better WAN solutions, give us a call and we will be happy to help you however we can.
The Pros and Cons of SD-WAN and MPLS
In the next video, Robert Sturt – Managing Director of The Network Union, talks about the high level pros, cons and differences between MPLS vs SD-WAN via the Eye on Tech channel. With the key point being that there’s a place for both in network architecture, depending on requirements and expected outcomes.
Video transcript: Hi, I’m Robert Sturt from The Network Union. In this video, I’m going to talk about the high level differences of MPLS versus SD-WAN. The first point to make is that SD-WAN doesn’t have to be an internet technology. Providers and vendors support software WAN functionality with any connectivity time, which of course, includes MPLS. With this said, it is fair to say certain vendors such as Meraki, well, they are kind of much more relying to internet-based services.
Now, you no doubt have read the MPLS is deemed finished, dead, and all kinds of depressing stuff. But the reality is that private-based WAN services should and do form a component of a good network architecture.
The SD-WAN internet-based VPN positives are clear. Using the internet or public IP backbone means our cloud-based applications are much more accessible. Secure internet means our users can connect securely from wherever they are located on a global basis. And of course, there’s that cost-saving element. Using the internet often results in a significant price reduction versus MPLS.
Now, if you start comparing MPLS versus the flexibility and agility of internet-based SD-WAN, well, you’ll start to really get the idea why is it easy for SD-WAN providers to talk about MPLS as that older, more expensive technology. You will read a significant amount of content on various blogs stating how MPLS is in decline because it is so expensive and restrictive.
In short, companies are adopting SD-WAN primarily for cost-saving but also, internet-based resilience. So think of 4G and 5G when it’s available, broadband and so on, and of course public-based kind of applications. But there are other major benefits such as granular reporting, the ability to self-manage services, granular security and application performance training, which vendors and providers are saying is so good, you just simply do not require the end-to-end cost of MPLS.
Your IT team needs to understand the fundamental differences here. An MPLS circuit typically offers an end-to-end SLA that includes latency and jitter performance as a proper business SLA with the ability to protect your application traffic using quality of service. And you just don’t get those kind of guarantees using the internet.
The fact is the internet is much more robust and scalable versus even a few years ago. So it’s now very much a viable platform for sending mission-critical and delay-sensitive application traffic from site to site.
So that MPLS cost argument while it starts to lose its appeal, perhaps an overlooked area is support. So remember, those cost-savings using the internet, we’ve got to think about the difference between internet-based support, fixed times, and the support times we used to have with MPLS. When the service is in an outage situation, would you rather deal with a network operation center supporting MPLS or are you willing to put the business at risk by dealing with that cheap and cheerful ISP even if it is fronted by an SD-WAN provider?
Now of course, it isn’t fair to say that all ISP services do not offer good support, but remember the lower end of the market in respect of cost maybe somewhat different to the MPLS support that you are used to.
The global enterprise also needs to consider the performance of internet as a backbone between continents. So where possible, a single global public IP backbone will offer good end-to-end performance. But using multiple ISPs to save money could put in a whole world of pain as your traffic traverses those multiple ISPs and suffers poor latency and jitter performance, and not to mention support.
So SD-WAN, while it represents a here and now and the future of networking all at once, but remember, a good hybrid architecture can encompass all that SD-WAN offers and MPLS can be another component of your WAN. It is as ever about aligning your business requirements with the right service across technical, across strategy and support, and budget. So check with your prospective SD-WAN provider or vendor on how they can integrate MPLS into your overall architecture.
WiFi 6: The Latest Standard In Wireless Technology
WiFi 6 (or Wi-Fi 6 as designated by long standing Fastmetrics customer, Wi-Fi Alliance), is the latest and greatest when it comes to wireless technology standards. This new Wi-Fi standard is a glimpse into the future of wireless technology, upgrades and capabilities. It can provide super fast wireless connection speeds, for routers that are compatible with the standard, also designated as 802.11ax. In addition to some incredible speeds that WiFi 6 supports, it also handles multiple wireless device connectivity, in a more efficient manner. All over a single WiFi network.
You may be aware, but wireless connectivity becomes saturated easily, is prone to inference across channels and the best frequency selection is not often known, for a particular environment. This can cause issues and degrade wireless signal strength and experience. Typically, this makes channel assignments and frequency choices important, to allow users to connect to a higher quality signal.
We talk about common WiFi issues and troubleshooting in these posts;
However, WiFi 6 solves some of the above issues, as explained below. So, is WiFi 6 worth exploring for your business or home? We’ve got some insights from popular videos on the subject, to find out.
Video: What Is WiFi 6 & How It Can Actually Benefit Us
In the below video from TheUnlockr, David was invited to check out WiFi 6 in San Francisco from leading chip set manufacturer, Qualcomm. Check out his channel for more great tech videos.
Video transcript: There has been talk about the next generation of Wi-Fi called Wi-Fi 6 a lot lately. Enter WiFi 6, the new standard of Wi-Fi. Now while it might seem like WiFi is just feeling left out while everyone is talking about 5Gs, the next level upgrade of the cellular networks and it just wants to feel like it’s getting an upgrade too, it actually is a very clever new standard for how WiFi works, how it can get faster and probably more importantly how it can handle the massive influx of new WiFi connected devices that we just keep adding to our networks.
Qualcomm, one of the top chip set producers in the world, invited me out to San Francisco not too long ago to see what they were doing with WiFi 6. So in this inaugural episode of Decodr where I break down a new piece of tech every week, let’s talk about what WiFi 6 is and how it can actually benefit us.
First off, WiFi 6 is now actually called Wi-Fi 6 because the Wi-Fi Alliance, (the industry body that kind of regulates all of this), decided to kind of change the names to help people understand them better. So WiFi 6 is the new name for 802.11ax. WiFi 5 is the new name of 802.11ac, etc, etc.
Now each of these new standards basically is when people like VK Jones here, the VP of Technology at Qualcomm and considered the godfather of Wi-Fi, and other industry professionals get together and discuss what specific features the next generation of Wi-Fi will need to have. Once they all come to an agreement, they will ask us then what manufacturers must adhere to in order to have their WiFi devices able to use the new standard. For WiFi 6, there are thousands of items mentioned in the actual standard, which don’t worry we won’t get into. We can actually really kind of sum it up in five major features.
5G and WiFi 6 timelines. Image: Cisco industry standards.
5 Major New Features: WiFi 6
First up is MU-MIMO, which stands for Multiple User, Multiple Input, Multiple Output. What it’s trying to say with all those multiples in there though is that it’s a protocol that allows multiple users to send data at the same time, up to eight in WiFi 6 and Qualcomm has even gone above and beyond the standard requirements and have chip sets that are capable of 12 users at a time.
Now this doesn’t mean that only eight devices are talking to the router in total. It means that every packet their WiFi 6 router sends out, which it does multiple times per second by the way, eight devices can receive them at once and this can happen with a different eight devices during the next transmission if needed. Maybe another eight after that or a combination of the new devices and some of the same, etc. So when you think about how fast the signal actually sends out, it ends up being a ton more devices they get to talk every minute for example, instead of waiting their turn like with previous versions of Wi-Fi.
Now in the standard as it is right now, devices only need to be able to have MU-MIMO support on the downloads. So when the router sends info out up to eight devices or twelve again with Qualcomm chip sets, can receive data at once. But Qualcomm actually showed us that they have MU-MIMO for uploads as well on their chip sets and that’s up to twelve devices transmit data back to the router at once as well, further increasing the capacity and the speed.
The next thing that also helps with the capacity and speed of the WiFi 6 network is OFDMA or Orthogonal Frequency-Division Multiple Access. Which is a long way of saying that during those transmissions from the router, each packet of data can actually contain information from multiple devices. So think of it this way. If MU-MIMO basically opens up eight lanes of traffic for eight trucks to go out all at a time, OFDMA then lets each of those trucks split up their payload and drop it off to different devices on the way, without having to load up another truck and send it again just to that device.
How Much Faster Is WiFi 6?
OK. So yes, there is also a speed improvement. Don’t worry. Thanks to a newer version of QAM or Quadrature Amplitude Modulation, this technology is used to determine how much data is in each packet being sent to and from the router. In the case of WiFi 5, that was using 256 QAM whereas WiFi 6 can use 1024 QAM going from eight bits of data per packet to ten bits of data, giving us an increase in speed of about 25 percent.
Now the last thing that also helps a lot with the capacity of the network in WiFi 6 is target wake time. This feature basically allows the router to talk to each device and negotiate how long the device should be awake for it to receive and send data and then how long in between those times it should go to sleep. The router then will only send data during the awake times which drastically reduces unnecessary chatter on the network, freeing up transmissions to carry actual more important data and not this management data and as a side benefit, it actually improves the battery life for any WiFi 6 devices on the network as well.
Last but not least, the new WPA3 security encryption is here now and it is a lot more secure than WPA2 which is what most of us are currently using. In WiFi 6 though, WPA3 support will be actually required for the devices to be able to be compatible.
Now these major changes along with the minor ones that we didn’t talk about are what are going to make WiFi 6 faster but also more importantly, are going to make sure that it’s more efficient when it has a lot of users on the network. Honestly, it’s one of the biggest changes we’ve seen in Wi-Fi in a while and that’s why there’s so much talk about it lately. It’s not just a speed boost. It’s something we actually need to make sure that Wi-Fi is future-proofed.
Now something to know in closing, these are just standards and essentially bare minimums to be included in WiFi 6. But not all WiFi 6 is created equally. As I mentioned, Qualcomm has gone above and beyond the standard with their up-link support in MIMO and OFDMA and in increasing the number of users on their Qualcomm Networking Pro series of chip sets, to 1500 simultaneous clients, to ways to configure radios for OEMs that require less hardware components, etc.
So thanks again to Qualcomm for showing me around their WiFi 6 event and also showing me what they’re doing with WiFi 6. Hope you guys enjoyed that. Let me know in the comments below and also if there’s something that you would like me to decode, let me know in the comments below about that as well. I will see if I can try to get it into a new episode. As always though, regardless, thanks for watching and I will see you next week.
Just How Fast Can WiFi 6 Go?
In this next video from Linus Tech Tips, these guys do some real world testing with a Cisco Meraki WiFi 6 compatible access point and the Samsung Galaxy S10 Series. Check out the video and then the commentary below that.
Video transcript: Every once in awhile it feels like the stars just aligned perfectly for me. We were literally right in the middle of planning a WiFi upgrade so that we could test the brand new WiFi 6 capabilities of the Samsung Galaxy S10 series when our buds over at Cisco reached out to sponsor a video explaining the benefits of WiFi 6. So we were like, “Ah, so… yeah.” And you know that beastly new access point? Well, I think to really show off the benefit of WiFi 6, we probably need a couple of those. That OK? Yeah? So done. So today’s video then is all about what WiFi 6 is, why you might care and when you can expect widespread adoption. And we’re also going to take it for a test drive with the shiny new Galaxy S10 Plus. So strap in because this is going to be fun.
What Stays The Same With WiFi 6?
While our APs are being installed, let’s talk about what is the same. Physically, the hardware for WiFi 6 is actually quite similar. So on the client side, cellphone and other device manufacturers can continue to lean on the antenna design experience that they’ve gained from previous generations of WiFi, with even the battery consumption of new WiFi 6 chip sets only expected to increase during times of continuous high speed data transfer. And even then that’s only because the data rate is higher. So, nothing really changes there. As for the deployment, that’s basically the same. Remember your best practices for AP positioning, run your Ethernet and wire everything up to your network switch. Because WiFi 6 is backwards compatible, any legacy clients on the network won’t even know the difference.
What Has Changed With WiFi 6?
Now, let’s talk about what is different, which is basically everything starting with even the name. WiFi is undergoing a much needed and surprisingly sensible re-branding right now from 802.11 something, something. For those curious by the way, this generation was going to be called 802.11ax to simple number generations. So, AC becomes 5, N becomes 4 and so on and so forth with these little icons that are designed to inform consumers which generation is supported by both their client and the AP that they happen to be connected to.
Is WiFi 6 Deployed Differently?
Next up is the deployment. Yeah, OK, it’s not quite the same. So, WiFi 6 handles more clients and more cluttered environments better. So you might not actually need as many APs which is nice, but watch out because you’re not going to be saving a buck here. Each of those access points could be handling multiple gigabits of data per second across literally hundreds of clients. So, your commodity gigabit PoE switch – your commodity Gigabit PoE switch isn’t going to cut it anymore.
So, we’re moving to this Meraki MS355-24X2. Its 24 multi gigabit ports could actually be fully loaded with MR55 access points, thanks to its beefy 740 watt power supply. And this thing is rated at up to 640 Gigabit per second of switching capacity. And all of that is important because even though it’s rated at a mere 39% faster throughput, so about 600 megabit per second versus 433 on a single 80 megahertz 5 gigahertz channel. Thanks to packing more data into each payload, WiFi 6 has some truly game changing features when it comes to multi client access that are going to result in far higher overall data rates and less waiting.
So first of all, access points can be configured with up to an 8 by 8 antenna configuration so that is 8 for sending and 8 for receiving. And on top of that, WiFi 6 supports up to 8 concurrent downlink streams with multi-user MIMO. That is a huge increase over the four concurrent down extremes that was supported with WiFi 5. So this widening of the highway so to speak is a big part of what’s going to make Gen 6 so critical to making WIFI usable in large venues like sports arenas and crowded concert halls.
But it’s not even close to the entire picture. The next huge innovation for large scale deployments was actually borrowed from cellular networks. With WiFi 6, the band or the frequency range that would have made up a traditional channel can be split using a technique called Orthogonal Frequency-Division Multiple Access or OFDMA. So, you know how one of the best pro tips for anyone living in an apartment is to use a scanner to see what channels your neighbors are on and then manually switch over to a different one? Well, forget about it. OFDMA allows each band, be it 20, 40 or all the way up to 160 megahertz to be split up into multiple chunks, as many as 78 sub channels and each one of those can be allocated to a separate client.
Now obviously, to make all of this work, the access point needs to get a little bit smarter. Fortunately it did. With WiFi 6, an AP can negotiate what are called deterministic connections, allowing it to exercise a great deal of control over the connected clients and how they’re allowed to behave.
So first, a client gets dynamically assigned however many channels or sub channels can be spared at that moment. Then things get even crazier, each client gets a schedule for when it’s allowed to transmit and receive data. Now, hold on a second I know that in the computing world, scheduling a data transmission usually means increased latency which is one of the biggest issues with WiFi today. But in practice, what this means is less collision mitigation overhead which means that there’s actually less waiting around. Think of it kind of like a perfectly executed zipper merge on the highway, so it will actually reduce latency. That means yes friends, gaming on WiFi without leg spikes could actually be a thing with WiFi 6. Go figure.
Another fun feature of deterministic connections is that they can be used to save power. So you know you’re connected smart light switch, your Amazon button and your asset tags, etc, etc, etc. Right now, they waste a ton of power, constantly checking in with the network. “Hey, you got anything for me? No? OK. How about now? Got anything for me? No? OK.” Well, with scheduled check-ins called target wake up time, your devices can check-in far less frequently, dramatically increasing their battery life.
Better Specs, But What Else Is Cool About WiFi 6?
The coolest thing about WiFi 6 though is not the techie specs, as much as I personally get really amped on that stuff. Rather, it’s the different experiences that it enables. Like have you ever tried to stealthily have a video chat at the back of a lecture hall or upload a video to YouTube from a large event? It’s a total mess. And I mean even something as stupid as breaking for lunch during a conference can absolutely crush your mobile experience as everyone jumps on Facebook at exactly the same time.
Well, thanks to everything I’ve talked about already and actually a whole host of other new features, including better beam forming, spatial frequency reuse and dynamic fragmentation which makes better use of the available spectrum – oh man, actually I forgot to mention that too, down the line, we’re even getting more spectrum in the 5 to 6 gigahertz range. That’s going to be sweet. Anyway, the point is, with all of this new tech, this is not like an incremental, generational evolutionary improvement. And you could even argue that this is the biggest fundamental change that we’ve seen yet for WiFi. And I, for one, am stoked.
When Will WiFi 6 Be Widely Available?
But, there’s always a “but”, isn’t there? The one the buzzkill today is that while WiFi 6 is backwards compatible, you’re going to have to wait a little while longer for the kick ass experience that I’ve talked about here. Because the promises of WiFi 6 can only be fully realized once client devices with support for these new features start to overtake their legacy counterparts.Now the good news is that at least they’re already showing up.
How Fast Is WiFi 6? Speed Test Demo
So, all that’s left in this video then is to take our S10 Plus for a quick test drive. Now, one problem I have is that we don’t have a couple hundred of these so I’m not going to be able to do like a mega client test or anything like that but we can at least make sure that everything is working properly here in the office with a quick speed test. So, without further ado, let’s see just how fast we can make this go.
So, the first thing that I noticed just connecting to our new access point is that, remember those little icons I told you guys about? It’s right there at the top of the phone, WiFi 6, so you’ll know that you’re negotiating your link using the correct generation the technology. So that’s pretty cool. Then, for us, remember, we just upgraded to 10 gigabit internet, so as long as we can find a speed test server that can take the burn then all we got to do is run a simple speed test here and have a look at what kind of speeds we can get.
And I have never seen anything like this that upload speed 800 megabit per second. Guys, not only is this WiFi, this is WiFi on a mobile device. This is a 2 by 2 antenna configuration. That is real world speeds of like 800 – we’re getting close to if I actually plug the USB Type-C dongle into my phone and plug it into the wall. That’s absolutely incredible. And like I said before, it is absolutely just the tip of the iceberg.
So thanks for watching, guys. Thanks to Cisco for sponsoring this video. If you guys disliked it you can hit that button but if you liked it, hit Like, get subscribed or maybe consider checking out where to buy the stuff we featured, especially if you’re a small business owner at the link in the video description. Also down there is our merch store which has cool shirts like the one I’m wearing as well as our community forum which you should totally join.
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
At a time when technology is rapidly advancing, various new workplace trends are emerging. One way to ensure your company or business is offering a modern work space experience for your employees, is through IoT devices. Work spaces not only affect the well-being and productivity of employees, but they also enhance company culture. They even help in attracting and retaining future talent.
Co-working spaces are common today, as startups and businesses seek the flexibility of short term leasing and adaptive spaces. Co-working service providers such as Industrious, emphasize the positive effect of good work spaces. Thoughtfully designed spaces and hospitality-driven workplace experiences often bring out the best in teams, whether you’re just launching a new business, growing an existing project, or entering new markets. That being said, small – yet meaningful workplace modifications, can be instrumental in achieving an optimal work space.
Modern Workplace Trends
In 2019, Millennial’s and Gen Z accounted for approximately 38% of the entire workforce in the USA. In 2020, this figure will shoot up to 58%, making the youthful generation the most dominant sector that drives workplace trends, along with their new values and priorities. One of the leading workplace trends for this year is ’employee experience’. A concept that has evolved from employee satisfaction and employee engagement, Forbes pointed out that employee experience includes everything that ensures workers are happy, healthy and fulfilled. Employee experience can be influenced by a number of factors such as the mental health awareness policies of a company, flexibility of the working options available and even how conducive the workplace is for work.
Another notable trend is the growing influence of Artificial Intelligence (AI) technology in almost every aspect of the workplace. In fact, PwC predicts that the advances in AI will boost global GDP by $15.7 trillion by the year 2030. Many hold fears that jobs will be taken over by AI. In actual reality, this technology looks to be primarily utilized in performing mundane yet important functions. These functions may include analyzing large amounts of data and spotting patterns in information that is beyond the detection of the human eye alone. There is little doubt that overall employee experience will be enhanced via the maximized workflow and increased efficiency, that AI allows.
How To Introduce IoT Into The Workplace
Of course, to stay ahead of the latest workplace trends, introducing IoT devices in your work space is essential. ZDNet’s article divides IoT into three main categories, namely infrastructure, re-purposedsmart home devices and business-specific IoT devices. Use these three categories as a guide, when introducing IoT devices into your workplace.
Infrastructure: a start can be made from using building management systems that control heating, air conditioning, doors and even office security and alarm systems. All powered through apps, via Internet connectivity at your business.
Re-purposed smart home devices: IoT compatible hardware such as smart speakers, plugs, light bulbs, locks, coffee machines and similar, nurture and enhance a comfortable environment for employees. As the classic saying goes – ‘a happy employee is a productive employee’.
Business-specific IoT devices: various existing tech such as large-screen displays and video-conferencing setups to make them more useful and easier to control. You can also introduce smart desks that warn employees if they’ve been sitting or standing too long and gather data to encourage them to improve their habits and care more about their health while they work.
While IoT devices have been mainly used to ‘smarten’ homes, you can also turn to them to modernize your work space and encourage efficiency, productivity and comfort. Of course, you will only be able to make the most out of IoT if you have reliable Internet service, such as an optimized WiFi for business connection. For a look into the future of faster and more efficient workplace wireless networks, check out our post on what WiFi 6 is.
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
Essential Tips For Setting Your Business Website Up
A business website is crucial for operating any sort of business nowadays. Most consumers are either working on their computers or scrolling through their phones, which is why you should reach them through digital channels. Your business website is more than just a place where you can place your products and services. It’s where you can share your vision as a brand to your customers and engage with them to increase their loyalty. You can outsource the process of building your website, or you can do it yourself.
Check these top tips for getting your business website up and running:
1. Choose a Domain Name and Web Host
Your domain name serves as your digital home online. You can choose from the name of your company or, if someone is already using that address, you can opt to add where you’re located. For instance, you can use companyname.com or be more specific with companynamenewyork.com. Another variation includes going for a different top-level domain like .us, .net, or .org. It’s better to use your business name than vague, generic words for your domain name.
Next, find a website host that offers the features and functions that you need for your website at an affordable price. In this process, you’ll be renting web space on the provider’s servers, where you can store the content and media for your website. There are also lots of options available for web hosting. Compare rates and features first before settling for one provider. Read some website hosting reviews to get an idea of which platform works best for your business needs.
2. Determine Must-Have Features and Functions
After choosing your domain name and sourcing a web host provider, identify the goals you want to achieve through your website. This means listing down the must-have features and functions that will create an enjoyable experience for consumers.
Accepting online payments can make sales transactions more efficient for you and your customers if you’re running a business-to-consumer (B2C) company, or an e-commerce store. Enlist the help of a retail payments processor like Paypal or Stripe, as this is a highly-technical feature. However, you might not need this function if you’re a business-to-business (B2B) company, if you want a customer to contact you to get a customized quote or order.
3. Design The Look of Your Business Website
Focusing on the aesthetics of your business website isn’t just for branding. Design a beautiful digital space with clear navigation enhances the functionality of your domain. With this, your customers can explore your site with ease, while ensuring that they see your products and services.
Coding is one of the skills that you can learn online for free. If you want to be hands-on with the design of your website, you should equip yourself with basic knowledge on how to do it. Fortunately, there are also user-friendly platforms that allow you to choose and customize templates for your brand, often called a CMS (Content Management System). WordPress is popular option, as are Joomla, Square Space, Wix, Shopify and many others.
4. Create Relevant Business Content
Content is the information you publish on your website that’s geared toward your target audience. It can come in various media, like text, audios, photos, and videos. As mentioned above, your business website is more than just a place where you post a catalog of products and services. It’s where you allow your consumers to get to know your brand better.
5. Test Your Business Website
Once you get your business website up and running, always test it before it goes live. Explore the different sections of the domain and look for bugs that may detract from the user experience. A website is essential when running a business these days. It’s where you promote your products and services as well as engage with your customers. The first step toward building a site is to choose a domain name and web host. Then determine the features and functions that your business needs. The layout, navigation, and content of your website are also crucial factors to consider for ensuring an enjoyable experience for users. Before you go live, make sure that you test your domain and look for bugs.
About Fastmetrics, Inc. Building & Business ISP
Since 2002, Fastmetrics is the Bay Area’s only dedicated business ISP. We provide telecommunication services in California and the San Francisco Bay Area. Reliable service – backed by better live and local support. From install to 24-7 proactive monitoring, get treated like a VIP customer. Not a number by a faceless call center. We specialize in managed business internet and phones, dedicated high speed business fiber internet, business WiFi, SIP voice solutions / UCaaS and managed network services. We are a Microsoft and Cisco Meraki Partner. Our team are Certified Cisco Specialists, Ubiquiti Enterprise Wireless Accredited and Polycom Authorized Solution Advisors. We take care of your business network, so you can focus on growth.
