Abstract: A bus width control circuit being arranged between a first bus and a second bus both of n-bits width, and comprising a buffer group being connected to the first bus and which split data of n-bits into partial data of m-bits and buffer them, a selector which connects each buffer to the second bus in parallel in the case where the effective data bus width of the second bus is n bits and which connects each buffer to a predetermined m bits of the second bus in the case where the effective data bus width of the second bus is m bits, and a control circuits thereof, and a control circuit which locates intact the n-bits data of the first bus in the second bus or by splitting it into partial data of m-bits in a predetermined portion of n-bits data and outputs them sequentially to the second bus, or which splits the n-bits data of the second bus into partial data of m-bits and buffers them in each buffer and then simultaneously outputs them to the first bus, or which sequentially buffers data whose m bits alone of the

Abstract: In a gas laser, an anode of discharge electrodes is formed from stainless steel. Alternatively, the anode is formed from a metallic base material and chromium coating is applied on the surface of the metallic base material. A cathode is formed from titanium as a base material and the surface thereof is oxidized. Alternatively, the cathode is formed from molybdenum as a base material and titanium coating is applied on the surface of the molybdenum base material. The surface of the cathode is oxidized.

Abstract: In a gas laser, the surface of either or both of discharge electrodes are formed from titanium oxide which provides fine sputtering proof. The discharge electrodes are formed from titanium as a base material having an oxidized surface. Alternatively, the discharge electrodes are formed from molybdenum as a base material with titanium coated and the surfaces are oxidized. In the gas laser of the direct current discharge type, the cathode is formed as described above. Both of cathode and anode are formed as described above in the gas laser of the alternate current discharge type.

Abstract: A process for producing an artificial leather having excellent touch, appearance and full-hand similar to that of natural leather and having further excellent softness and surface strength, which comprises coating a composition comprising an urethane prepolymer, a combination of catalysts and a foam stabilizer and including a plurality of extremely fine cells (foams) of an inert gas, onto a release paper or a layer of a surface treating agent coated on a release paper in a specified thickness; subjecting the resultant to a steam treatment under a specified atmosphere; laminating a base sheet onto the coating layer under pressure; subjecting the laminated product to a heat treatment at a specified temperature, and then peeling off the release paper, and optionally further treating the product with a surface treating agent.