摘要:
Automated photolithography of integrated circuit wafers is enabled with a processor connected to a Rayleigh derator, a form factor generator, a logic synthesizer, a layout generator, a lithography module and a wafer process. The Rayleigh derator receives manufacturing information resulting from yield data in the wafer process, and this manufacturing data is then used to derate the theoretical minimum feature size available for etching wafer masks given a known light source and object lens numerical aperture. This minimum feature size is then used by a form factor generator in sizing transistors in a net list to their smallest manufacturable size. A logic synthesizer then converts the net list into a physical design using a layout generator combined with user defined constraints. This physical design is then used by the mask lithography module to generate wafer masks for use in the semiconductor manufacturing. Manufacturing data including process and yield parameters is then transferred back to the Rayleigh processor for use in the designing of subsequent circuits. In this way, a direct coupling exists between the measurement of wafer process parameters and the automated sizing of semiconductor devices, enabling the production of circuits having the smallest manufacturable device sizes available for the given lithography and wafer process.
摘要:
Fine, sub-micron line features and patterns are created in a sensitized layer on a semiconductor wafer by a beam of low wavelength radiation, such as X-rays or Gamma-rays. A stream of such radiation is concentrated and collimated by a concentrator, the output of which is disposed in close proximity to the sensitized surface of the wafer. In this manner, the sensitized surface can be converted from one chemical state to another chemical state, essentially point-by-point. By moving one or the other of the beam or the wafer, line features can be converted in the sensitized surface. Typically, non-converted areas of the sensitized surface are removed, for further processing a layer underlying the sensitized surface. The concentrator is useful in for directing a stream of radiation from a continuously emitting source, such as from a pellet of Cobalt-60, onto the sensitized surface of the wafer when a shutter mechanism is incorporated either upstream (towards the source) or downstream (towards the wafer) from the concentrator.
摘要:
An apparatus and method for mounting and connecting a plurality of integrated circuit chip dice to a printed circuit substrate by means of a small circuit board (such as a Mini-Board) that may be adapted to attach and connect into a plurality of different types of printed circuit board systems. A pattern of conductors that monotonically increases in pitch and width from a central point on a planar structure to the perimeter edge of the structure allows matching of any type of printed circuit board connections. A standard Mini-Board may be fabricated and tested before attaching to an electronic system printed circuit board. Repair and rework is easily facilitated with a minimum amount of damage to a printed circuit board by utilizing the present invention. A plurality of active and passive electronic components may also be attached and connected to the planar structure of the present invention. A hybrid mini-system may be fabricated and tested before connecting it into a system printed circuit board.
摘要:
Methods of planarizing one or more layers having an irregular top surface topology in a semiconductor device based on an underlying MOS structure are disclosed. Methods of creating doped wells or regions for the underlying MOS structure are also disclosed, using thick oxide growths on the surface of the substrate to mask implantation of ions into the wells. A technique for creating a pair of adjacent complementary oppositely-doped wells, such as for a CMOS structure, using a thick oxide growths as a mask is also disclosed. One of the methods of planarizing the one or more layers involves depositing, densifying and re-flowing a layer of glass on top of the topological layer. Another method of planarizing the one or more layers involves depositing, densifying and chemical-mechanically polishing the deposited and densified glass, thereby avoiding an additional temperature cycle (i.e., for re-flowing the glass) which would adversely affect underlying diffusions.
摘要:
Fine, sub-micron line features and patterns are created in a sensitized layer on a semiconductor wafer by a beam of low wavelength radiation, such as X-rays. The X-ray source emits very low wavelength radiation along a path towards a sensitized surface of a semiconductor wafer. An image mask substrate is disposed in the path of the radiation, and is provided with opaque material on a surface thereof, forming a pattern. The image mask is spaced sufficiently close to the wafer that radiation passing through the mask forms a corresponding pattern in the surface of the wafer. For X-ray radiation, the opaqueing material is gold, tungsten, platinum, barium, lead, iridium, rhodium, or the like.
摘要:
Apparatus for improving ON/OFF switching in high speed digital circuitry is disclosed. The present invention includes apparatus for altering the impedance or capacitive loading of the interconnect. Some embodiments reduce back reflections by raising the impedance of the interconnect to be closer to that of the contact, or raising the capacitive loading, and others improve the culprit-victim problem by filtering out the highest frequency components of the pulse on the culprit interconnect. For the back reflection problem, the apparatus for altering can be formed of elements for altering the capacitance or, alternatively the resistance, of the interconnect. For the culprit-victim problem, the apparatus for altering includes elements which alter the effective capacitance or resistance of the culprit interconnect.
摘要:
A technique for improving power distribution to an semiconductor die while simultaneously reducing thermally-induced mechanical stresses on bond pads in semiconductor device assemblies is accomplished by providing the signal-carrying bond pads in a collinear arrangement along an axis of the die, and providing power-carrying bond pads in an off-axis location. The on-axis configuration of signal-carrying bond pads minimizes lateral thermal displacements of the bond pads relative to the axis, which minimizes any longitudinal, compressive end displacements of leadframe fingers or bond wires, thereby minimizing thermally induced mechanical stresses of the bond pad interfaces to the die. The positioning of the power-carrying bond pads off-axis reduces the length of internal (to the die) wiring required to connect circuitry on the die to the power-carrying bond pads. Constraining the location of the power-carrying bond pads to an interior area of the die approximately one half of the die area, and substantially centered about the axis, keeps longitudinal thermal displacements of the ends of leadframe fingers or bond wires connected to the power-carrying bond pads relatively small compared to those experienced in peripheral bond pad placement (at the die edges), and ensures shorter, more direct internal paths to circuitry on the die.
摘要:
Techniques for identifying and determining the orientation, magnitude, and direction of slip plane dislocations transecting semiconductor dies are described, whereby a four point alignment pattern is examined for "squareness" and size integrity. Lack of squareness or significant change in apparent size of various aspects of the alignment pattern indicate slip-plane dislocations. The magnitude, orientation and direction of the dislocations are determined geometrically from measurement of the alignment pattern. Various other aspects of the invention are directed to optimal alignment of a photolithographic mask to a die which has experienced a slip-plane dislocation, and to discrimination between slip-plane dislocation and die-site rotation.
摘要:
A semiconductor die is disposed on a side of an optically-transmissive preformed planar structure (interposer), and an optical element is disposed on an opposite side of the interposer. The interposer may be provided with through holes extending at least partially into the die side, and electrical probes in the through holes, for making contact to raised conductive bumps on the die. The interposer may be provided with raised portions for locating the optical element at a predetermined distance away from the die. The interposer may be provided with darkened areas for preventing light from impacting selected areas of the die.
摘要:
Fine, sub-micron line features and patterns are created in a radiation sensitive resist layer on a semiconductor wafer by a beam of short wavelength gamma rays. The resist layer includes photoresist which is substantially chemically inactive in response to the gamma rays. The photoresist is either doped or covered with a material that absorbs gamma rays and in response emits secondary radiation of a different wavelength, preferably photons, that is actinic with respect to the photoresist. The resist layer enables using radiation sources having better resolving ability than conventional photolithographic sources to perform near-field and direct-write lithography.