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Hi there, I'm from the UK. Basically I'm a big mac fan, I've been using them for about 13 years now. Even through the 'dark ages' of apple, when it looked like the company might go bust. I have been an active apple support person to people who have needed it. Here's the thing. I currently have a 24inch imac, (late 2006) 3 gig ram, terabytes of storage. I download TV shows as XVID, movies as XVID & DIVX, and have a back catalogue of Series/Movies burnt to DVD'S and CD'S in a box.
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There is very little I watch on regular TV. I download through Bittorrent or stream through a site like tvlinks. What I eventually believe is the future for me would be a suitable LCD, 46-52inch. 1080p for futureproofness.
IDTV for convenience. Now I'm thinking seriously that because the mac mini is core 2, so 64bit advantages as and when together with 2 gig ram would make it a fast, second computer under the HDTV. Hooked up via an onyko reciever (DVI-HDMI) so I could get 5.1 basic, and possibly 7.1 or 8.1 in the future. I can always simply add a blu-ray deck, or hd-dvd and hook that up via HDMI to the receiver at any moment should one format win, and will be cheaper.
The mac mini would suit as a media server, accessed wirelessly for new episodes/movies downloaded through the imac, or through the mini. Attach a matching external HDD for the content, and watch through VLC would give me all the codecs I need for the file formats I watch. Then there's the advantage of a mac mini in the lounge surf web, watch youtube, or tvlinks, directly from the armchair. What do you think? Surely this is better than an appletv that plays back limited codec files. No XVID, or DIVX. Wheress the mini has DVD playback/net functions/osX/ HDD/VLC/ the list is endless.
It's a tough call. In some ways, they are two very different approaches. I think Apple TV is a cleaner approach in that you don't have to think to make it work, no need for keyboard/mice, etc. However, you can do some much more interesting and advanced things with a Mac Mini hooked up instead. Of course, on my TV, it cuts off some of the screen when connected to a computer,so that was another reason I didn't want a computer hooked up. Overall, it just depends on the person. For now, I chose spending $300 with less fuss over $600 plus wireless stuff $$, plus more ram $$, etc.
Maybe in the future I'll need something more like the Mini. I also figure that the Apple TV will grow, and I may just upgrade my Apple TV as I go along by selling my current one and getting whatever is next each time. I was in this exact same boat a few months ago, but ultimately only wanted a simple way to just stream my media from my mbp to the appletv in the den.
With all of the available hacks to the atv, you can pretty much stream/playback.most. formats. Be forewarned though, while atv hacking has come a long way, it does come with it some long hours of fixing/rehacking/refixing/etc; the stability of the atv after hacking it is, well, pretty unstable. For me at least.
You can however, EASILY reload everything back to it's from the factory defaults which is nice for when it comes time to ebay it or if you decide to finally get all of your media into an itunes readable format. I do wish i had the mac mini at times though, it would be MUCH easier to do certain things, especially if the mac mini had a.11n adapter built in, i'd definitely jump on it.
FS Official 2017-11-03 You may have noticed that every piece of hardware on your local network has a MAC address in addition to the IP address. Except for switches which have switch MAC address, all devices that connected to the Internet have this unique identifying number, from desktop computers, laptops, cell phones, tablets to wireless security cameras, and even your connected refrigerator have a MAC address. So, why does your network devices need two addresses to connect to a network? Isn’t an IP address sufficient? What exactly is that MAC address for? To put the MAC (Media Access Control) address in layman’s terms, you can think of the MAC address as your unique digital fingerprint, which is one of a kind in the world.
A MAC Address is given by the manufacturer and it is embedded in the chip that allows your device to connect to a network. For a network switch, it is likely to have many MAC addresses, since one MAC address is assigned to every interface on the switch. An Overall View of Mac Address A MAC address, also known as “hardware address” or “physical address”, is a binary number used to uniquely identify computer network adapters. Packets that are sent on the Ethernet are always coming from a MAC address and sent to a MAC address. If a network adapter is receiving a packet, it is comparing the packet’s destination MAC address to the adapter’s own MAC address. If the addresses match, the packet is processed, otherwise it is discarded. Traditional MAC addresses are 12-digit hexadecimal numbers.
The leftmost six hexadecimal digits of the address correspond to a manufacturer's unique identifier, while the rightmost six digits correspond to the serial number of the network interface card (NIC). MAC vs IP Address Relationship Initially it might seem that IP addresses and MAC addresses are redundant because both are unique identifiers of networked devices, but they actually serve different purposes, and are visible in very different ways. MAC operates at Layer 2 of the OSI model while IP operates at Layer 3. MAC addresses are typically used only to direct packets from one device to the next device as data travels on a network.
That means that the MAC address of your computer’s network adapter travels the network only until the next device along the way. If you have a router, then your machine’s MAC address will go no further than that. While when your computer wants to send a packet to some IP address x.x.x.x, then the first check is if the destination address is in the same IP network as the computer itself. If x.x.x.x is in the same network, then the destination IP can be reached directly, otherwise the packet needs to be sent to the configured router.
So do you see what’s going on? The MAC address just gets the data packet to the next device but the IP address is responsible for getting it to the ultimate destination.
What Do Switches Use Mac Address For? Switches are unlike hubs or repeaters. A hub simply rebroadcasts every signal on every port to every other port, which (while inefficient and slow) is easy to create. A switch, on the other hand, intelligently directs traffic between systems by routing packets only to their proper destination. To do this, it keeps track of the MAC addresses of the NICs plugged into each port.
MAC addresses need to be unique or at least highly unlikely to be repeated for switches to identify different ports and devices, which is why manually setting a MAC address can have unexpected consequences in a switched network. Switches usually have a bunch of MAC addresses reserved in its MAC address table. When forwarding a frame, the switch first looks up the MAC address table by the destination MAC address of the frame for the outgoing port. If the outgoing port is found, the frame is forwarded rather than broadcast, so broadcasts are reduced. How Do Switches Learn Mac Address? Since a switch has some intelligence, it can build the MAC address table automatically.
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The following part will illustrate how a switch learns MAC addresses. There’s a switch in the middle and we have 3 computers around. All computers have a MAC address but they are simplified as AAA, BBB, and CCC. The switch has a MAC address table and it will learn where all the MAC addresses are in the network. Now, assuming Computer A is going to send something to Computer B: Computer A is going to send some data meant for computer B, thus it will create an Ethernet frame which has a source MAC address (AAA) and a destination MAC address (BBB).
The switch has a MAC address table and here’s what will happen: The switch will build a MAC address table and only learns from source MAC addresses. At this moment it just learned that the MAC address of computer A is on interface 1. It will now add this information in its MAC address table.
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But the switch currently has no information where computer B is located. There’s only one option left to flood this frame out of all its interfaces except the one where it came from.
Computer B and computer C will receive this Ethernet frame. Since computer B sees its MAC address as the destination of this Ethernet frame it knows it’s meant for him, computer C will discard it.
Computer B is going to respond to computer A, build an Ethernet frame and send it towards the switch. At this moment the switch will learn the MAC address of computer B.
That’s the end of our story, the switch now knows both MAC addresses and the next time it can “switch” instead of flooding Ethernet frames. Computer C will never see any frames between Computer A and B except for the first one which was flooded. You can use the show mac address-table dynamic command to see all the MAC addresses that the switch has learned. One other point worth emphasizing here is that the MAC address table on the switch uses an aging mechanism for dynamic entries. Rent apogee one usb audio interface for mac. If the MAC address of Computer A and B are not updated within their aging time, they will be deleted to make room for new entries, which means the frames between computer A and B will be flooded to Computer C again if A wants to transfer information to B. How to Configure Your Switch Mac Address Table?
A MAC address table is maintained for frame forwarding, which can be dynamically learned or manually configured. The former has been introduced in the previous text, and the next part will focus on how to configure the MAC addresses manually to adapt to network changes and enhance network security. Configuring Static, Dynamic, and Blackhole MAC Address Table Entries To improve port security, you can manually add MAC address entries to the MAC address table to bind ports with MAC addresses, fending off MAC address spoofing attacks. In addition, you can configure blackhole MAC address entries to filter out packets with certain source or destination MAC addresses. To add or modify a static, dynamic, or blackhole MAC address table entry.