## Specific Design Goals and Requirements **A standard Linux server environment** for hosting applications, meaning that web applications and most daemons (eg, appropriate to run on a single VPS) do not have to be specifically re-ported to run on rooter. **Simultaneous 200Mbps down, 109Mbps up routed ethernet throughput** between local and remote ports. This performance ensures that rooter would not limit the performance of [DOCSIS 3.0](https://en.wikipedia.org/wiki/DOCSIS#Speed_tables) cable modem connections. **"No-surprises" generic router functionality**, meaning that the device should meet the expectations of non-technical users in it's default configuration: standard firewall configuration, DHCP and DNS auto-configuration, support for common upstream authentication mechanisms, configuration via a web interface at the gateway's IP address. **Hardware Hackability**, a vague concept. In this case meaning (at a minimum) that new firmware can loaded and debugged on the device, and that low-level electronics can be integrated using standard connections (3.3/5v GPIOs, UARTS, SPI, ADCs, etc). Ability to **participate in alternative networks** like wireless mesh networks (BATMAN, OLSR, etc), darknets (i2p), or Tor without excessive difficulty. This may require some network-specific porting and may contra-indicate some other **"Line-rate" WiFi routed throughput** (to local or upstream ethernet ports). For 802.11n this means 150Mbps for a single 40MHz channel. **IPv6 fully supported out-of-the-box.** **"No-reboot" reliability** under defaults with "normal usage", meaning that end users should never have to manually power cycle the device to resolve local or uplink DHCP or routing connectivity issues. **No NDAs, special vendor deals, or binary blobs.** A mostly free/libre software and hardware stack, reproducable by anybody with capital and manufacturing facilities. **"Internet-of-Things" connectivity** via a low-power IP-based wireless protocol (eg 802.15.4 6lowpan, ZigBee, Bluetooth Low-Energy, etc). ## Hardware features See [design/hardware]() for specific components and costs. - 1GHz dual-core ARM SoC processor - 512MB+ RAM - Internal uSD card storage, expandable through SATA and USB ports - Modular WiFI via miniPCIe slot - Second USB-only miniPCIe slot for expansion - 2+ powered USB ports for expansion - 5x Gigabit ethernet ports: 4x local + 1x upstream - Serial and JTAG debugging via USB port - Low-power "internet of things" gateway with 802.15.4 radio - Hardware entropy generation device ## Comparison

Device	Price (est.)	CPU/RAM/Disk	Ethernet Ports	Router?	Server?	Libre?	Hack?
rooter	$175	dual 1GHz ARM / 512MB 8Gb uSD, empty SATA	5x 1000Mbps	Yes	Yes	Open Hardware FLOSS software FLOSS firmware	Serial, JTAG, GPIO, MCU
DreamPlug (FreedomBox)	$180	1.2 GHz ARM / 512MB 4GB uSD, empty eSATA	2x 1000Mbps	Mostly	Yes	Proprietary Hardware FLOSS software Proprietary firmware	Serial, JTAG
Raspberry Pi B	$35	700MHz ARM / 256MB empty uSD, ??? SATA	1x 100Mbps	No	Limited	Proprietary Hardware FLOSS software ??? firmware	Yup
Netgear WNDR3700v2 Router	$90	680MHz MIPS / 64MB 16MB flash	5x 1000Mbps	Yes	No	Proprietary Hardware FLOSS OpenWRT software ??? firmware	Expert only
Soekris net6501-50	$300+	1GHz Atom x86 / 1GB empty SATA	4x 1000Mbps	Yes	Yes	Proprietary Hardware FLOSS software pseudo-proprietary (?) firmware	Serial, GPIO, FPGA
Mesh Potato	$100	180MHz MIPS / 16MB 8MB flash	1x 100Mbps	Mostly	No	Open Hardware FLOSS software FLOSS firmware (?)	Yes?