315 research outputs found
Generalizations of comparability graphs
2022 Summer.Includes bibliographical references.In rational decision-making models, transitivity of preferences is an important principle. In a transitive preference, one who prefers x to y and y to z must prefer x to z. Many preference relations, including total order, weak order, partial order, and semiorder, are transitive. As a preference which is transitive yet not all pairs of elements are comparable, partial orders have been studied extensively. In graph theory, a comparability graph is an undirected graph which connects all comparable elements in a partial order. A transitive orientation is an assignment of direction to every edge so that the resulting directed graph is transitive. A graph is transitive if there is such an assignment. Comparability graphs are a class of graphs where clique, coloring, and many other optimization problems are solved by polynomial algorithms. It also has close connections with other classes of graphs, such as interval graphs, permutation graphs, and perfect graphs. In this dissertation, we define new measures for transitivity to generalize comparability graphs. We introduce the concept of double threshold digraphs together with a parameter λ which we define as our degree of transitivity. We also define another measure of transitivity, β, as the longest directed path such that there is no edge from the first vertex to the last vertex. We present approximation algorithms and parameterized algorithms for optimization problems and demonstrate that they are efficient for "almost-transitive" preferences
On the Statistical Multiplexing Gain of Virtual Base Station Pools
Facing the explosion of mobile data traffic, cloud radio access network
(C-RAN) is proposed recently to overcome the efficiency and flexibility
problems with the traditional RAN architecture by centralizing baseband
processing. However, there lacks a mathematical model to analyze the
statistical multiplexing gain from the pooling of virtual base stations (VBSs)
so that the expenditure on fronthaul networks can be justified. In this paper,
we address this problem by capturing the session-level dynamics of VBS pools
with a multi-dimensional Markov model. This model reflects the constraints
imposed by both radio resources and computational resources. To evaluate the
pooling gain, we derive a product-form solution for the stationary distribution
and give a recursive method to calculate the blocking probabilities. For
comparison, we also derive the limit of resource utilization ratio as the pool
size approaches infinity. Numerical results show that VBS pools can obtain
considerable pooling gain readily at medium size, but the convergence to large
pool limit is slow because of the quickly diminishing marginal pooling gain. We
also find that parameters such as traffic load and desired Quality of Service
(QoS) have significant influence on the performance of VBS pools.Comment: Accepted by GlobeCom'1
A Novel Dynamic Event-triggered Mechanism for Dynamic Average Consensus
This paper studies a challenging issue introduced in a recent survey, namely
designing a distributed event-based scheme to solve the dynamic average
consensus (DAC) problem. First, a robust adaptive distributed event-based DAC
algorithm is designed without imposing specific initialization criteria to
perform estimation task under intermittent communication. Second, a novel
adaptive distributed dynamic event-triggered mechanism is proposed to determine
the triggering time when neighboring agents broadcast information to each
other. Compared to the existing event-triggered mechanisms, the novelty of the
proposed dynamic event-triggered mechanism lies in that it guarantees the
existence of a positive and uniform minimum inter-event interval without
sacrificing any accuracy of the estimation, which is much more practical than
only ensuring the exclusion of the Zeno behavior or the boundedness of the
estimation error. Third, a composite adaptive law is developed to update the
adaptive gain employed in the distributed event-based DAC algorithm and dynamic
event-triggered mechanism. Using the composite adaptive update law, the
distributed event-based solution proposed in our work is implemented without
requiring any global information. Finally, numerical simulations are provided
to illustrate the effectiveness of the theoretical results.Comment: 9 pages, 8 figure
UFOGen: You Forward Once Large Scale Text-to-Image Generation via Diffusion GANs
Text-to-image diffusion models have demonstrated remarkable capabilities in
transforming textual prompts into coherent images, yet the computational cost
of their inference remains a persistent challenge. To address this issue, we
present UFOGen, a novel generative model designed for ultra-fast, one-step
text-to-image synthesis. In contrast to conventional approaches that focus on
improving samplers or employing distillation techniques for diffusion models,
UFOGen adopts a hybrid methodology, integrating diffusion models with a GAN
objective. Leveraging a newly introduced diffusion-GAN objective and
initialization with pre-trained diffusion models, UFOGen excels in efficiently
generating high-quality images conditioned on textual descriptions in a single
step. Beyond traditional text-to-image generation, UFOGen showcases versatility
in applications. Notably, UFOGen stands among the pioneering models enabling
one-step text-to-image generation and diverse downstream tasks, presenting a
significant advancement in the landscape of efficient generative models
MobileDiffusion: Subsecond Text-to-Image Generation on Mobile Devices
The deployment of large-scale text-to-image diffusion models on mobile
devices is impeded by their substantial model size and slow inference speed. In
this paper, we propose \textbf{MobileDiffusion}, a highly efficient
text-to-image diffusion model obtained through extensive optimizations in both
architecture and sampling techniques. We conduct a comprehensive examination of
model architecture design to reduce redundancy, enhance computational
efficiency, and minimize model's parameter count, while preserving image
generation quality. Additionally, we employ distillation and diffusion-GAN
finetuning techniques on MobileDiffusion to achieve 8-step and 1-step inference
respectively. Empirical studies, conducted both quantitatively and
qualitatively, demonstrate the effectiveness of our proposed techniques.
MobileDiffusion achieves a remarkable \textbf{sub-second} inference speed for
generating a image on mobile devices, establishing a new state
of the art
SMDP-Based Dynamic Batching for Efficient Inference on GPU-Based Platforms
In up-to-date machine learning (ML) applications on cloud or edge computing
platforms, batching is an important technique for providing efficient and
economical services at scale. In particular, parallel computing resources on
the platforms, such as graphics processing units (GPUs), have higher
computational and energy efficiency with larger batch sizes. However, larger
batch sizes may also result in longer response time, and thus it requires a
judicious design. This paper aims to provide a dynamic batching policy that
strikes a balance between efficiency and latency. The GPU-based inference
service is modeled as a batch service queue with batch-size dependent
processing time. Then, the design of dynamic batching is a continuous-time
average-cost problem, and is formulated as a semi-Markov decision process
(SMDP) with the objective of minimizing the weighted sum of average response
time and average power consumption. The optimal policy is acquired by solving
an associated discrete-time Markov decision process (MDP) problem with finite
state approximation and "discretization". By introducing an abstract cost to
reflect the impact of "tail" states, the space complexity and the time
complexity of the procedure can decrease by 63.5% and 98%, respectively. Our
results show that the optimal policies potentially possess a control limit
structure. Numerical results also show that SMDP-based batching policies can
adapt to different traffic intensities and outperform other benchmark policies.
Furthermore, the proposed solution has notable flexibility in balancing power
consumption and latency.Comment: Accepted by 2023 IEEE International Conference on Communications
(ICC
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