254 research outputs found
Towards an Automated Design of Application-specific Reconfigurable Logic
Reconfigurable logic is known to have the potential to provide better
solutions than direct ASIC implementations or processors in some situations.
A necessary prerequisite for area advantages compared to ASICs or a better
energy efficiency than processors is an application specific design of the
reconfigurable unit.
Adapting it to the specific requirements of an application helps to compensate
for the area and speed penalty introduced by reconfigurability.
The data paths of reconfigurable units are best suited for data flow oriented
tasks, but for many applications, both control flow and data flow must be
handled, so a integration of the reconfigurable unit into a processor
environment is an appropriate choice.
By analysing the existing design flow and integration possibilities for
reconfigurable units, a basis for discussing possible automation schemes
and a standardised interface is defined.
Possible future research could investigate an automated design support for the
building blocks of reconfigurable units and the definition of a standard
processor interface for some classes of reconfigurable units
Adaptive and Deadlock-Free Tree-Based Multicast Routing for Networks-on-Chip
This paper presents the first synthesizable network-on-chip (NoC) based on a mesh topology, which supports adaptive and deadlock-free tree-based multicast routing without virtual channels. The deadlock-free routing algorithms for unicast and multicast packets are the same. Therefore, the routing function\ud
gate-level implementation is very efficient. Multicast packets\ud
are injected to the network by sending multiple packet headers beforehand. The packet headers contain destination addresses to set up multicast trees connecting a source with multiple destination nodes. An additional locally uniform identification (ID) field is packetized together with flits belonging to the same packet. Therefore, flits of different unicast or multicast packets can be interleaved in the same queue because of the local ID-tags, which are updated and mapped dynamically to support bandwidth scalability of interconnection links. Deadlocks in tree-based multicast\ud
routing are handled using a flit-by-flit round arbitration and a\ud
fair hold???release tagging mechanism. The effectiveness of the novel mechanism has been experimented under multiple multicast\ud
conflicts scenarios, where the experimental results show that all traffic is accepted in-order and lossless in their destination nodes even if adaptive routing functions are used and the sizes of the\ud
multicast messages are very long
Wormhole cut-through switching: Flit-level messages interleaving for virtual-channelless network-on-chip
A VLSI microrchitecture of a network-on-chip (NoC) router with a wormhole cut-through switching method is presented in this paper. The main feature of the NoC router is that, the wormhole messages\ud
can be interleaved (cut-through) at flit-level in the same buffer pool and share communication links. Each flit belonging to the same message can track its routing paths correctly because a local identity-tag (ID-tag) is attached on each flit that varies over communication resources to support the wire-sharing\ud
message transportation. Flits belonging to the same message will have the same local ID-tag on each\ud
communication channel. The concept, on-chip microarchitecture, performance characteristics and interesting transient behaviors of the proposed NoC router that uses the wormhole cut-through switching method are presented in this paper. Routing engine module in the NoC architecture is an exchangeable module and must be designed in accordance with user specification i.e., static or adaptive routing algorithm. For quality of service purpose, inter-switch data transfers are controlled by using link-level overflow\ud
control to avoid drops of data
A Programmable look-up table-based interpolator with nonuniform sampling scheme
Interpolation is a useful technique for storage of complex functions on limited memory space: some few sampling values are stored on a memory bank, and the function values in between are calculated by interpolation. This paper presents a programmable Look-Up Table-based interpolator, which uses a reconfigurable nonuniform sampling scheme: the sampled points are not uniformly spaced. Their distribution can also be reconfigured to minimize the approximation error on specific portions of the interpolated function's domain. Switching from one set of configuration parameters to another set, selected on the fly from a variety of precomputed parameters, and using different sampling schemes allow for the interpolation of a plethora of functions, achieving memory saving and minimum approximation error. As a study case, the proposed interpolator was used as the core of a programmable noise generatoroutput signals drawn from different Probability Density Functions were produced for testing FPGA implementations of chaotic encryption algorithms. As a result of the proposed method, the interpolation of a specific transformation function on a Gaussian noise generator reduced the memory usage to 2.71% when compared to the traditional uniform sampling scheme method, while keeping the approximation error below a threshold equal to 0.000030518
New Theory for Deadlock-Free Multicast Routing in Wormhole-Switched Virtual-Channelless Networks-on-Chip
A new theory for deadlock-free multicast routing especially used for on-chip interconnection network (NoC) is presented in this paper. The NoC router hardware solution that enables the deadlock-free multicast routing without utilizing virtual channels is\ud
introduced formally. The special characteristic of the NoC is that, wormhole packets can cut-through at flit-level and can be interleaved in the same channel with other flits of different packets by multiplexing it using a rotating flit-by-flit arbitration. The routing paths of each flit can be guaranteed correct because flits belonging to the same packet are labeled with the same local Id-tag on every communication channel. Hence, multicast deadlock problem can be solved at each router by further applying a hold-release tagging\ud
mechanism to control and manage conflicting multicast requests
Dagstuhl-Manifest zur Strategischen Bedeutung des Software Engineering in Deutschland
Im Rahmen des Dagstuhl Perspektiven Workshop 05402 "Challenges for Software Engineering Research" haben führende Software Engineering Professoren den derzeitigen Stand der Softwaretechnik in Deutschland charakterisiert und Handlungsempfehlungen für Wirtschaft, Forschung und Politik abgeleitet. Das Manifest fasst die diese Empfehlungen und die Bedeutung und Entwicklung des Fachgebiets prägnant zusammen
Regularization of Hierarchical VHDL-AMS Models using Bipartite Graphs
The powerful capability of VHDL-AMS to describe complex continuous systems in form of differential algebraic equations (DAEs) often leads to problems during numerical simulation. This paper presents a discrete algorithm to analyze unsolvable DAE systems and to correct the underlying hierarchical VHDL-AMS description automatically in interaction with the designer, avoiding timeconsuming manual error correction
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