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System Architecture for Extreme Devices
David Culler
http://www.cs.berkeley.edu/~culler
U.C. Berkeley
DARPA Meeting
9/21/1999
9/21/99 Endeavour Sys. Arch 2
Away from the ‘average’ Device
Scalable, AvailableInternet Services
Info. appliances
ClientServer
Clusters
Massive Cluster
Gigabit Ethernet
9/21/99 Endeavour Sys. Arch 3
Convergence at the Extremes
• Arbitrarily Powerful Services on “Small” Devices– massive computing and storage in the infrastructure
– active adaptation of form and content “along the way”
• Extremes more alike than either is to the middle– More specialized in function
– Communication centric design
» wide range of networking options
– Federated System of Many Many Systems
– Hands-off operation, mgmt, development
– High Reliability, Availability
– Scalability
– Power and space limited
– simplicity
• Each extends the other
9/21/99 Endeavour Sys. Arch 4
State-of-the-Art: Very Large Systems
• Scalable Clusters Established– high-speed user-level networking + single system image
– naming, authentication, resources, remote exec., storage, policy
• Meta-system glue over full OS and Institutional structure
– Glunix (UCB), Globus(ANL), Legion (UVA), IPG (NASA), Harness, NetSolve, Snipe (UTK), ...
– uniform, multiprotocol communication mechanism
– personal virtual machine spanning potentially diverse resources
» constructed and managed “by hand”
• Key challenges– Automatic composition, Management, and Availability
– Scalability to global scale
– Ease of development for global-scale services
9/21/99 Endeavour Sys. Arch 5
State-of-the-Art: in the small...
• Unix-like support in a small form factor + real time seasoning
– microkernels dominate
» academic: Exokernel, OSKit, ucLinux, ELKS,
» Commercial: PSION, GeoWorks, WinCE, Inferno, QNX, VxWorks, javaos, chorusOS,
– + PalmOS, BeOS,
– Components and mobile objects: jini, corba, dcom, ...
=> tracks the 80386– when it becomes ~ 1990 PC Unix will run on it
– ability to remove components (modularity) + fault boundaries more important than performance
– legacy applications less dominant
9/21/99 Endeavour Sys. Arch 6
Design Issues for “Small Device OS”
• Current: Managing address spaces,Thread scheduling, IP stack, Windowing System, Device drivers, File system, Applications Programming Interface, Power management
• Challenge: How can operating systems for tiny devices be made radically simpler, manageable, and automatically composable?
9/21/99 Endeavour Sys. Arch 7
Emerging Devices
• RF COTS Mote– Atmel Microprocessor
– RF Monolithics transceiver
» 916MHz, ~20m, 4800 bps
– 1 week fully active, 2 yr @1%
N
S
EW 2 Axis Mag. Sensor
2 Axis AccelerometerLight Intensity Sensor
Humidity Sensor
Pressure Sensor
Temperature SensorLaser mote
• 650nm laser pointer• 2 day life full duty
CCR mote
• 4 corner cubes
• 40% hemisphere
9/21/99 Endeavour Sys. Arch 8
Micro Mote - First Attempt
9/21/99 Endeavour Sys. Arch 9
Structured Communication-Centric Architecture Approach
• Active Proxies– connected to the infrastructure– soft-state, bootstrap protocol– transcoding,
• Ubiquitous Devices– billions– sensors / actuators– PDAs / smartphones / PCs– heterogeneous
Service Path
• Base Scalable Infrastructure– highly available– persistent state (safe)– databases, agents– service programming environment
• Service Paths– aggregate flows (rivers)– transcoding operators
9/21/99 Endeavour Sys. Arch 10
Three Basic Kinds of Nodes
• Infrastructure Nodes– powerful network + lots of proc. and storage
– interact through the network
• Transducer Nodes– network + sensors or actuators
– limited proc and state
• Interaction Nodes– network + user interface
– widely varying capability and size
• Communication is the common element
9/21/99 Endeavour Sys. Arch 11
The Large: Service-Centric Platform Arch
Servers
ClientsClients
ClientsClients
ClientsClients
Servers
Servers
Infrastructure Services
Open
Enable Distributed Innovation of Scalable, Avail. Services• service registry, aggregate execution env., transparency • persistent dist. data structures• massive fluid storage (ocean)• adaptive high-bandwidth flows (rivers)
• Build the infrastructure itself through composition of services
9/21/99 Endeavour Sys. Arch 12
Automated Composition and Mgmt
• Individual services are strongly-typed active components that can be located through intentional “service discovery”
• Application formed as path (or graph) of services– not ad hoc connectivity, nor general planning
– reachability and adaptation
• Resources allocated and managed in decentralized manner under economic model
– translation of value -> resource
– platform components enforce allocation
– rich body of mechanisms (contracts, auctions, pricing)
– natural elevation from resources to higher level services
=> Simple composition building from complex nodes
9/21/99 Endeavour Sys. Arch 13
The Small: radically simple OS for management and composition• Communication is fundamental
– treated as part of the hardware. No comm. is like no power
• hands off: a direct “user interface” is the exception not the norm
– typical device has a network on one side + sensor/actuators on the other
» buttons and display a special case
– all deployment, development, configuration, mgmt, programming, is through the communication interface
• schedule data movement, not arbitrary threads of computation
9/21/99 Endeavour Sys. Arch 14
OS as little more than FSM
• Primary focus is scheduling discrete chunks of data movement
– not general thread scheduling and unlimited memory management
– there may be a bounded amount of work to xform or check data
• Commands are an event stream merged with sensor/actuator events
• General thread must be compiled to sequence of bounded atomic transactions
– spaghetti part of an application is configuring the flows
– steady-state is straight-forward event processing + signaling unusual events
• constant self-checking and telemetry– rely on the infrastructure for hard stuff
• correct-by-construction techniques for cooperating FSMs
9/21/99 Endeavour Sys. Arch 15
Precursors to the next generation• Operating systems that are not called “operating systems”
• eg: modern disk controller– event scheduler handling stream of commands from network link, controlling complex array of sensors and actuators, performing sophisticated calculations to determine what and when (scheduling and
caching) as well as transforming data on the fly
– automatic connection, enumeration, configuration
– but several simplifying assumptions must be removed
Complex array ofSensors and actuators
Network link: - EIDE, SCSI - FCAL, SSA - USB, 1394 - ???
9/21/99 Endeavour Sys. Arch 16
UCB Testbed
• 1x300 proc + 10x20 proc SAN clusters across depts.
• integrated through multiple gigabit ethernet
• extended out throug 100s desktops, RF laptop, IRDA PDA, Cell Phones, Pagers, and numerous motes
Cell Phones
PDAs Future Devices
Wireless DesktopPCs
Servers
Clusters
Massive Cluster
Gigabit Ethernet
9/21/99 Endeavour Sys. Arch 17
Plan
• Prototype Phase:– Large: 2nd generation NOW arch. + meta-OS efforts + Ninja
Service Platform
– Small: PalmOS + wince + uc-Linux
– simulation environment
• Develop:– Automated service composition architecture
– FSM-OS and negotiation/mgmt architecture
• Deploy widespread services, devices and feeds
• Evaluate against high-speed decision making applications