PIPELINED CIRCUIT SWITCHING ROUTINE IN A ENERGETIC LANE COMPLEX SYSTEM

An engaged path setup plan from the suggested design to aid a runtime path arrangement once the permutation is altered. In every path setup, which starts from a port to locate a path resulting in its corresponding output, is dependent on an engaged probing mechanism. The novel on-nick network in plastic proven design to aid guaranteed traffic permutation in multiprocessor SOC applications. A pipelined circuit-switching Used in the suggested network with FIFO approach coupled with a multistage network topology in dynamic path-setup plan. The runtime path arrangement enabled by dynamic path-setup plan for arbitrary traffic permutations combined with the Error Correction Block (ECB). The Exhausted lucrative backtracking (EPB) use to route the probe within the network work. A way arrangement with full permutation includes 16 path setups, whereas a way arrangement with partial permutation may contain a subset of 16 path setups. A CMOS test-nick with .13m validates the practicality and efficiency from the suggested design. The proven experimental increase the risk for suggested on-nick network achieves decrease in plastic overhead when compared with other design approaches. The circuit-switching approach provides the permuted data and it is compact overhead enables the advantage of stacking multiple systems in system on nick

Adsorption potential of Euphorbia Hirta’s (leaf and bark) towards methyl red in aqueous systems

Dyes harm both aquatic species and humans in wastewaters, which are poisonous as well as carcinogenic. For decades, the adsorption system technique has been widely used to take out dyes from aqueous solutions since it is a trouble-free and successful process. The present study investigated the use of Euphorbia hirta’s leaf powder/bark powder/leaf ash/bark ash for the adsorption of methyl red dye (MRD) from aqueous samples for the first time. MRD aqueous solutions (250 ml, 100 ppm) were incubated for the required contact period with 1.2 gm/l of investigated sorbent with agitation at 100 rpm. The temperature and pH remained maintained at 27 degrees Celsius and 4.0, respectively. The residual amounts of MRD were evaluated by spectrophotometrically measuring MRD absorbance at 464.9 nm. The percent MRD clearance using E. hirta’s leaf powder/bark powder/leaf ash/bark ash showed that the optimal condition of MRD clearance happened at pH unit of 4, 100 ppm concentration of MRD, sorbent dose at 1.2 gm/l, ambient temperature, mechanical shaker agitation speed of 100 rpm.  The optimal equilibration time for highest percentile MRD clearance was 125 min (E. hirta leaf powder), 105 min (E. hirta leaf ash powder and E. hirta bark powder) and 90 min (E. hirta bark ash powder).  Negatively charged chemical groups like –COOH, -CHO, -NH, etc. present in the phytochemicals of E. hirta’s leaf and stem binds to positively charged ions in MRD, as a result, adsorption occurs. For its significant biosorption potential and cheap cost, E. hirta’s leaf powder/bark powder/leaf ash/bark ash can be regarded as alternative biomass for removing MRD from the aqueous solution

RDNN for Classification and Prediction of Rock or Mine in Underwater Acoustics

Mines in the waters are just explosives that detonate upon contact with an object. The underwater submarine must foresee if it will encounter a mine or a rock. Lacking the development of the Ranging Sound Navigation approach, which utilizes particular variables to identify whether a surface or a barrier is made of a mine or rock, finding mines or rocks would have been extremely difficult. In our study, we demonstrate a technique for predicting underwater rocks and mines using SONAR waves. At 60 different angles, SONAR pings are employed to record the various frequencies of submerged objects. To identify whether the object in the ocean is a mine or just a rock, the submarine uses SONAR signals, which transmit sound and receive switchbacks. The mine and rock categories are predicted using the prediction models. To create these prediction models, Supervised Machine Learning Classification methods were employed

PERFORMANCE EVALUATION FOR STRENGTH OF M30 DESIGN MIX CONCRETE WITH PARTIAL RPLACEMENT OF CONVENTIONAL INGREDIENTS IN CEMENT AND FINE AGGREGATE

Concrete has been a major construction material for centuries. Yet concrete construction so far is mainly based on the use of virgin natural resources. Cement and aggregate, which are the majority significant component utilized in concrete creation, are the crucial resources desirable for construction industry. This inevitably led to a continuous and growing demand of natural resources utilized for their production. With this the concrete protection becomes an important issue; hence it has to be replaced with other materials. The present paper focuses on investigating characteristics of M30 concrete with limited substitute of cement with Municipal solid waste incineration (MSWI) ash and sand with the stone dust (crusher sand). The cubes and cylinders are tested for compression, flexure and tensile strengths. It is found that by the limited substitution of cement with MSWI ash and sand with Stone dust helped in betterment of the strength of the concrete significantly compared to ordinary mix concrete

Performance Evaluation for Strength of M30 Design Mix Concrete with Partial Rplacement of Conventional Ingredients in Cement and Fine Aggregate

Concrete has been a major construction material for centuries. Yet concrete construction so far is mainly based on the use of virgin natural resources. Cement and aggregate, which are the majority significant component utilized in concrete creation, are the crucial resources desirable for construction industry. This inevitably led to a continuous and growing demand of natural resources utilized for their production. With this the concrete protection becomes an important issue; hence it has to be replaced with other materials. The present paper focuses on investigating characteristics of M30 concrete with limited substitute of cement with Municipal solid waste incineration (MSWI) ash and sand with the stone dust (crusher sand). The cubes and cylinders are tested for compression, flexure and tensile strengths. It is found that by the limited substitution of cement with MSWI ash and sand with Stone dust helped in betterment of the strength of the concrete significantly compared to ordinary mix concrete

BIOCHEMICAL AND MOLECULAR CHARACTERIZATION OF BIOFILM PRODUCING BACTERIA

Biofilms have been proved to have useful effects on food chains, sewage treatment plants, to eliminate petroleum oil on oceans. They have been found to cause a wide variety of microbial infections in the body, such as urinary tract infections, catheter infection, middle-ear infections, formation of dental plaque, gingivitis, coating contact lenses. In the present study, the high yielding biofilm strains have been isolated from the soil. Microtitre plate assay was used to confirm the biofilm producing ability of these bacteria. Two high yielding isolates were identified and characterized. Both the isolates were named as sample 17 and sample 19. The isolates were characterized by biochemical and molecular techniques. The antibiofilm activities of various chemicals and plant extracts have been tested. Ethanol, formaldehyde, hydrogen peroxide showed considerable effect, iodine showed negligible effect on the biofilm formation. The extracts from Prosopis juliflora, Nerium oleander, Eucalyptus globulus and Catharanthus roseus showed significant reduction on biofilm formation. Calotropis gigantea, Ocimum sanctum and Ricinus communis did not show any effect on biofilm formation

Multidimensional Honeycomb-like DNA Nanostructures Made of C‑Motifs

Thanks to its remarkable properties of self-assembly and molecular recognition, DNA can be used in the construction of various dimensional nanostructures to serve as templates for decorating nanomaterials with nanometer-scale precision. Accordingly, this study discusses a design strategy for fabricating such multidimensional DNA nanostructures made of simple C-motifs. One-dimensional (1D) honeycomb-like tubes (1HTs) and two-dimensional (2D) honeycomb-like lattices (2HLs) were constructed using a C-motif with an arm length of 14 nucleotides (nt) at an angle of 240° along the counterclockwise direction. We designed and fabricated four different types of 1HTs and three different 2HLs. The study used atomic force microscopy to characterize the distinct topologies of the 1D and 2D DNA nanostructures (i.e., 1HTs and 2HLs, respectively). The width deviation of the 1HTs and height suppression percentage of the 2HLs were calculated and discussed. Our study can be provided to construct various dimensional DNA nanostructures easily with high efficiency