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Transcript 
Runtime Support
Politecnico di Milano
NECST Meeting Room
16 November, 2016
Antonio R. Miele
Marco D. Santambrogio
Politecnico di Milano
2
Systems has to be adaptive
3
Systems has to be adaptive
4
Systems has to be adaptive
5
Systems has to be adaptive
Behavioral evolution
6
Runtime Reconfiguration Management
• Reconfigurable architecture
– Static Area: used to control the reconfiguration process
– Reconfigurable Area: used to swap at runtime different cores
– Reconfiguration- oriented communication infrastructure
• Runtime reconfiguration managed via SW
– Standalone, Operating System
• Increased portability of user applications
• Inherited multitasking capabilities
• Simplified software development process
• Bitstreams relocation technique to
–
–
–
–
speedup the overall system execution
achieve a core preemptive execution
assign at runtime the bitstreams placement
reduce the amount of memory used to store partial bitstreams
7
Runtime Reconfiguration Management
• Reconfigurable architecture
– Static Area: used to control the reconfiguration process
– Reconfigurable Area: used to swap at runtime different cores
– Reconfiguration- oriented communication infrastructure
• Runtime reconfiguration managed via SW
– Standalone, Operating System
• Increased portability of user applications
• Inherited multitasking capabilities
• Simplified software development process
• Bitstreams relocation technique to
–
–
–
–
speedup the overall system execution
achieve a core preemptive execution
assign at runtime the bitstreams placement
reduce the amount of memory used to store partial bitstreams
8
OS-based management of dynamic
reconfiguration
• Provide software support for dynamic partial reconfiguration
on Systems-on-Chip running an operating system (i.e.,
LINUX).
–
–
–
–
–
OS customization for specific architectures
Rec. Functional Unit caching policies to improve the performance
Partial reconfiguration process management from the OS
Addition and removal of reconfigurable components
Automatic loading and unloading of specific drivers for the IP-Cores
upon components configuration and/or deconfiguration
• Hardware-independent interface for software developers
based on the GNU/Linux
• Easier programming interface for specific drivers
9
IP-Core Devices Access
• Interaction with configured IP-Cores implemented by
means of the standard Linux device access
– Open, Close, Read, write, ioctl operations
FPGA
Userspace
/dev/device_1
IP-Core_1
device_1.o
Software
Application 1
/dev/device_2a
IP-Core_2a
device_2.o
Software
Application 2
/dev/device_2b
Devices
/dev
Device
Drivers
IP-Core_2b
Multiple instances
of the same
hardware module
10
Reconfigurable Process Control Block
• Reconfigurable process: an RFU object code in execution
• Each reconfigurable process is represented in the system by a
Reconfigurable Process Control Block (RPCB).
• A RPCB contains all the information associated with a specific
reconfigurable process
– State: the state in which the reconfigurable process control is at
the current time
– Position: the placement position on the device
– Object Code Accounting Information:
Configuring
Positioning
•
•
•
•
Object Code
Configuration Priority
Resources
Position
Cached
Configuring
Ready
Configured
Addressing Space
Assignment
Computing
Removed
Executing
Preempted
Waiting
11
The Centralized Manager
• Userspace applications are not allowed to explicitly
request a bitstream
– They request high-level functionalities
• Userspace requests are collected and served by a
centralized manager (Linux Reconfiguration Manager)
– The OS chooses the configuration code
– A new reconfigurable process is created
• Only the LRM can ask for a bitstream to be configured
on the FPGA
– Centralized knowledge of the device status
– Area management and module caching
11
12
Reconfiguration: Online Static
13
Reconfiguration: Online Static
14
Reconfiguration: Online Static
15
Reconfiguration: Online Static
16
Reconfiguration: Online Static
17
Reconfiguration: Online Static
18
Where to go necst?
19
Trying to raise the bar
• Towards the design and implementaion of Selfadaptive and autonomic systems
20
Trying to raise the bar
• Towards the design and implementaion of Selfadaptive and autonomic systems
• We need to include 2 more features
– Goal-oriented
• Tell the system what you want
• System’s job to figure out how to get there
– Approximate
• Does not expend any more effort than necessary to
meet goals
21
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
22
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
23
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
24
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
25
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
26
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
27
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
28
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
29
Online Static Solution
Data
Environment
Adaptive Solution
Data Environment
Output - Environment Update
Output - Environment Update
30
Nice idea, but
31
Nice idea, but how to use it!
Umh…
32
Autonomic Operating System
• The AcOS project aims at
– designing and prototyping a patch for commodity
operating systems (e.g. Linux, FreeBSD)
– being capable to observe its own execution and
optimize, in a self-aware manner, its behavior with
respect to the external environment, to user needs
and to applications demands
[integrated/used in different research projects]
33
The research effort
• K42
– http://researcher.watson.ibm.com/researcher/view_
project.php?id=2078
• The SElf-awarE Computing (SEEC) Model
– http://groups.csail.mit.edu/carbon/seec/
• Angstrom
– http://projects.csail.mit.edu/angstrom/
• The Swarm project and Tessellation OS
– http://tessellation.cs.berkeley.edu
34
Reconfiguration: Self-Aware
35
Reconfiguration: Self-Aware
36
36
Reconfiguration: Self-Aware
37
38
Reconfiguration: Self-Aware
Questions…
Runtime Support
Politecnico di Milano
NECST Meeting Room
16 November, 2016
Antonio R. Miele
Marco D. Santambrogio
Politecnico di Milano
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