Abstract: Disclosed is an efficient dynamic resource allocation method and system for maximizing a utilization in Kubernetes environment that may dynamically adjust a resource quota of a pod running in a Kubernetes cluster, and may step-wisely decrease a request and a limit of resources requested for the pod according to an adjustment rate if an actual resource usage of the pod is within a set range for a certain period of time, may increase a request and a limit for resources of the pod by a square of increased usage if the actual resource usage of the pod is out of the set range for the certain period of time, and may keep a portion of resources additionally secured by dynamically adjusting a resource quota of each of pods for resource increase of the existing pods.

Abstract: A method of manufacturing a thin film transistor includes: forming an active pattern on a substrate; forming an insulating layer and a gate electrode layer on the active pattern in order; forming a photoresist pattern on the gate electrode layer; forming a preliminary gate electrode by wet etching the gate electrode layer using the photoresist pattern; forming an insulating pattern by dry etching the insulating layer using the photoresist pattern and the preliminary gate electrode; and forming a gate electrode by wet etching a side surface of the preliminary gate electrode using the photoresist pattern.

Abstract: Integrated circuit devices and methods of forming the same are provided. The methods may include forming a sacrificial layer in a preliminary substrate by adding an element into the preliminary substrate, forming a transistor structure on the preliminary substrate, the transistor structure including a source/drain region, replacing the sacrificial layer with a power contact that comprises an upper surface contacting the source/drain region, and forming a power rail that contacts a lower surface of the power contact.

Abstract: A method for a remote medical diagnostic service is disclosed. The method comprises a step of receiving from a terminal, by a service device, a readout result of readout request information including a part or all of medical information and reference medical information, a step of extracting, by the service device, a readout result for expert evaluation, which is content related to the reference medical information, out of the readout result, a step of comparing, by the service device, the readout result for expert evaluation with a reference readout result which is obtained in advance by reading out the reference medical information, and a step of calculating, by the service device, a service level of the medical information readout result, which is content related to the medical information, out of the readout result, based on the comparison result.

Abstract: The invention relates to a magnetic resonance imaging T2 contrast medium (agent) for cell contrasting, and to a method for manufacturing the same. The magnetic resonance imaging T2 contrast agent for imaging at cellular level comprises magnetic nanoparticles exhibiting ferrimagnetism at room temperature, has a very high relaxivity, and has an effective uptake into cells. Thus, the T2 contrast agent may effectively mark various types of cells, and in vitro and in vivo magnetic resonance imaging at the single cell level may he realized.