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1. Microsoft Network Download
2. Microsoft Network Adapter Multiplexor Protocol
3. Microsoft Network Speed Test Windows 10

Microsoft owns and operates one of the largest backbone networks in the world. This global and sophisticated architecture, spanning more than 165,000 miles, connects our datacenters and customers.

1. Client for Microsoft Networks is an essential networking software component for the Microsoft Windows family of operating systems.A Windows computer must run Client for Microsoft Networks to remotely access files, printers, and other shared network resources on a Windows server.
2. This web site tests your network connectivity to Microsoft 365 and shares a test report with your administrator.

Tech support scams are an industry-wide issue where scammers trick you into paying for unnecessary technical support services. You can help protect yourself from scammers by verifying that the contact is a Microsoft Agent or Microsoft Employee and that the phone number is an official Microsoft global customer service number. Indeed, there are device network discovery problems in the latest releases of Windows 10: you can’t see other computers on network, or your Windows 10 is not showing up in Workgroup. Let’s see how to fix Network Discovery on the latest Windows 10 builds (up to 1909).

Every day, customers around the world connect and pass trillions of requests to Microsoft Azure, Bing, Dynamics 365, Microsoft 365, XBox, and many others. Regardless of type, customers expect instant reliability and responsiveness from our services.

The Microsoft global network (WAN) is a central part of delivering a great cloud experience. Connecting our Microsoft data centers across 61 Azure regions and large mesh of edge-nodes strategically placed around the world, our global network offers both the availability, capacity, and the flexibility to meet any demand.

Get the premium cloud network

Opting for the best possible experience is easy when you use Microsoft cloud. From the moment when customer traffic enters our global network through our strategically placed edge-nodes, your data travels through optimized routes at near the speed of light. This ensures optimal latency for best performance. These edge-nodes, all interconnected to more than 4000 unique Internet partners (peers) through thousands of connections in more than 175 locations, provide the foundation of our interconnection strategy.

Whether connecting from London to Tokyo, or from Washington DC to Los Angeles, network performance is quantified and impacted by things such as latency, jitter, packet loss, and throughput. At Microsoft, we prefer and use direct interconnects as opposed to transit-links, this keeps response traffic symmetric and helps keep hops, peering parties and paths as short and simple as possible.

For example, if a user in London attempts to access a service in Tokyo, then the Internet traffic enters one of our edges in London, goes over Microsoft WAN through France, our Trans-Arabia paths between Europe and India, and then to Japan where the service is hosted. Response traffic is symmetric. This is sometimes referred as cold-potato routing which means that the traffic stays on Microsoft network as long as possible before we hand it off.

So, does that mean any and all traffic when using Microsoft services? Yes, any traffic between data centers, within Microsoft Azure or between Microsoft services such as Virtual Machines, Microsoft 365, XBox, SQL DBs, Storage, and virtual networks are routed within our global network and never over the public Internet, to ensure optimal performance and integrity.

Massive investments in fiber capacity and diversity across metro, terrestrial, and submarine paths are crucial for us to keep consistent and high service-level while fueling the extreme growth of our cloud and online services. Recent additions to our global network are our MAREA submarine cable, the industry's first Open Line System (OLS) over subsea, between Bilbao, Spain and Virginia Beach, Virginia, USA, as well as the AEC between New York, USA and Dublin, Ireland and New Cross Pacific (NCP) between Tokyo, Japan, and Portland, Oregon, USA.

Our network is your network

We have put two decades of experience, along with massive investments into the network, to ensure optimal performance at all times. Businesses can take full advantage of our network assets and build advanced overlay architectures on top.

Microsoft Azure offers the richest portfolio of services and capabilities, allowing customers to quickly and easily build, expand, and meet networking requirements anywhere. Our family of connectivity services span virtual network peering between regions, hybrid, and in-cloud point-to-site and site-to-site architectures as well as global IP transit scenarios. For enterprises looking to connect their own datacenter or network to Azure, or customers with massive data ingestion or transit needs, ExpressRoute, and ExpressRoute Direct provide options up to 100 Gbps of bandwidth, directly into Microsoft's global network at peering locations across the world.

ExpressRoute Global Reach is designed to complement your service provider's WAN implementation and connect your on-premises sites across the world. If you run a global operation, you can use ExpressRoute Global Reach in conjunction with your preferred and local service providers to connect all your global sites using the Microsoft global network. Expanding your new network in the cloud (WAN) to encompass large numbers of branch-sites can be accomplished through Azure Virtual WAN, which brings the ability to seamlessly connect your branches to Microsoft global network with SDWAN & VPN devices (that is, Customer Premises Equipment or CPE) with built-in ease of use and automated connectivity and configuration management.

Global VNet peering enables customers to connect two or more Azure virtual networks across regions seamlessly. Once peered, the virtual networks appear as one. The traffic between virtual machines in the peered virtual networks is routed through the Microsoft backbone infrastructure, much like traffic is routed between virtual machines in the same virtual network - through private IP addresses only.

Well managed using software-defined innovation

Running one of the leading clouds in the world, Microsoft has gained a lot of insight and experience in building and managing high-performance global infrastructure.

We adhere to a robust set of operational principles:

• Use best-of-breed switching hardware across the various tiers of the network.
• Deploy new features with zero impact to end users.
• Roll out updates securely and reliably across the fleet, as fast as possible. Hours instead of weeks.
• Utilize cloud-scale deep telemetry and fully automated fault mitigation.
• Use unified and software-defined Networking technology to control all hardware elements in the network. Eliminating duplication and reduce failures.

These principles apply to all layers of the network: from the host Network Interface, switching platform, network functions in the data center such as Load Balancers, all the way up to the WAN with our traffic engineering platform and our optical networks.

The exponential growth of Azure and its network has reached a point where we eventually realized that human intuition could no longer be relied on to manage the global network operations. To fulfill the need to validate long, medium, and short-term changes on the network, we developed a platform to mirror and emulate our production network synthetically. The ability to create mirrored environments and run millions of simulations, allows us to test software and hardware changes and their impact, before committing them to our production platform and network.

Next steps

A wireless network at home lets you get online from more places in your house. This article describes the basic steps for setting up a wireless network and starting to use it.

Get the right equipment

Before you can set up your wireless network, here’s what you’ll need:

Broadband Internet connection and modem. A broadband Internet connection is a high-speed Internet connection. Digital Subscriber Line (DSL) and cable are two of the most common broadband connections. You can get a broadband connection by contacting an Internet service provider (ISP). Typically, ISPs that provide DSL are telephone companies and ISPs that provide cable are cable TV companies. ISPs frequently offer broadband modems. Some ISPs also offer combination modem/wireless routers. You can also find these at computer or electronics stores, and online.

Wireless router. A router sends info between your network and the Internet. With a wireless router, you can connect PCs to your network using radio signals instead of wires. There are several different kinds of wireless network technologies, which include 802.11a, 802.11b, 802.11g, 802.11n, and 802.11ac.

Wireless network adapter. A wireless network adapter is a device that connects your PC to a wireless network. To connect your portable or desktop PC to your wireless network, the PC must have a wireless network adapter. Most laptops and tablets—and some desktop PCs—come with a wireless network adapter already installed.

To check whether your PC has a wireless network adapter:

1. Select the Start button, type device manager in the search box, and then select Device Manager.

2. Expand Network adapters.

3. Look for a network adapter that might have wireless in the name.

Setting up the modem and Internet connection

After you have all the equipment, you'll need to set up your modem and Internet connection. If your modem wasn't set up for you by your Internet service provider (ISP), follow the instructions that came with your modem to connect it to your PC and the Internet. If you're using Digital Subscriber Line (DSL), connect your modem to a phone jack. If you’re using cable, connect your modem to a cable jack.

Positioning the wireless router

Put your wireless router somewhere where it will receive the strongest signal with the least amount of interference. For better results, follow these tips:

Place your wireless router in a central location. Place the router as close to the center of your home as possible to increase the strength of the wireless signal throughout your home.

Position the wireless router off the floor and away from walls and metal objects, such as metal file cabinets. The fewer physical obstructions between your PC and the router's signal, the more likely that you'll be using the router's full signal strength.

Reduce interference. Some networking equipment uses a 2.4 gigahertz (GHz) radio frequency. This is the same frequency as most microwaves and many cordless phones. If you turn on the microwave or get a call on a cordless phone, your wireless signal might be temporarily interrupted. You can avoid most of these issues by using a cordless phone with a higher frequency, such as 5.8 GHz.

Securing your wireless network

Security is always important; with a wireless network, it's even more important because your network's signal could be broadcast outside your home. If you don't help secure your network, people with PCs nearby could access info stored on your network PCs and use your Internet connection.

To help make your network more secure:

Change the default user name and password. This helps protect your router. Most router manufacturers have a default user name and password on the router and a default network name (also known as the SSID). Someone could use this info to access your router without you knowing it. To help avoid that, change the default user name and password for your router. See the documentation for your device for instructions.

Set up a security key (password) for your network. Wireless networks have a network security key to help protect them from unauthorized access. We recommend using Wi-Fi Protected Access 2 (WPA2) security if your router supports it. See the documentation for your router for more detailed info, including what type of security is supported and how to set it up.

Some routers support Wi-Fi Protected Setup (WPS). If your router supports WPS and it’s connected to the network, follow these steps to set up a network security key:

1. Do one of the following, depending on which version of Windows is running on your PC:

   • In Windows 7 or Windows 8.1, select Start, start typing Network and Sharing Center, and then choose it in the list.

   • In Windows 10, select Start , then select Settings > Network & Internet > Status > Network and Sharing Center.

2. Select Set up a new connection or network.

3. Select Set up a new network, then choose Next.

The wizard will walk you through creating a network name and a security key. If your router supports it, the wizard will default to Wi‑Fi Protected Access (WPA or WPA2) security. We recommend that you use WPA2, because it offers better security than WPA or Wired Equivalent Privacy (WEP) security. With WPA2 or WPA you can also use a passphrase, so you don’t have to remember a cryptic sequence of letters and numbers.

Write down your security key and keep it in a safe place. You can also save your security key on a USB flash drive by following the instructions in the wizard. (Saving your security key to a USB flash drive is available in Windows 8 and Windows 7, but not in Windows 10.)

Microsoft Network Download

Use a firewall. A firewall is hardware or software that can help protect your PC from unauthorized users or malicious software (malware). Running a firewall on each PC on your network can help control the spread of malicious software on your network, and help protect your PCs when you're accessing the Internet. Windows Firewall is included with this version of Windows.

Microsoft Network Adapter Multiplexor Protocol

Connect a PC to your wireless network

1. Select the Network or icon in the notification area.

2. In the list of networks, choose the network that you want to connect to, and then select Connect.

3. Type the security key (often called the password).

4. Follow additional instructions if there are any.

Microsoft Network Speed Test Windows 10

If you have problems with your Wi-Fi network when using Windows 10, see Fix Wi-Fi problems in Windows 10 for advanced troubleshooting info.