1. A method for manufacturing a semiconductor structure, comprising:
forming a plurality of stacked strips, arranged parallel to each other on a substrate;
forming a conductive liner compliant to the stacked strips by conducting a conformal deposition;
planarizing the stacked strips with an ashable material layer;
exposing a portion of the conductive liner by etching back the ashable material layer; and
forming a plurality of conductive lines, arranged parallel to each other, orthogonally positioned on the stacked strip, and contacting the exposed conductive liner.
2. The method according to claim 1, further comprising a step of forming an insulating layer on the conductive line by a non-conformal deposition.
3. The method according to claim 1, further comprising a step of forming a memory layer between the stacked strips and the conductive liner.
4. The method according to claim 1, wherein the distance between two adjacent stacked strips is below 300 nm.
5. The method according to claim 1, further comprising the following steps:
forming conductive film on the ashable material layer and the conductive liner;
etching the conductive film to define the conductive line by a third etchant; and
etching the portion of the conductive liner and the ashable material layer not shadowed by the conductive line by a fourth etchant;
wherein the third and the fourth etchant are different.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. An abdominal exercise machine comprising:
a frame assembly with a seat and a lumbar support attached thereto, the seat and lumbar support statically positioned with respect to the frame assembly, the frame assembly at a tilted position and having a support arm;
a seat back assembly pivotally attached to the frame assembly at a pivot axis, the seat back assembly with an upper back support member, the seat back assembly adapted to pivot on the pivot axis from a rest position where the upper back support member is tilted back from vertical to a tilt forward position when the upper back support member is past vertical and wherein the pivot axis is positioned above the seat within a user’s lower lumbar area at a point forward of and perpendicular to the frame assembly; and
a piston and cylinder assembly attached between the frame assembly and the seat back assembly and having a longitudinal axis;
wherein the support arm is adapted to position the upper back support members in the rest position; and
wherein the upper back support member is in generally the same plane as the plane of the lumbar support when in the rest position;
wherein the longitudinal axis of the piston and cylinder assembly is close to the pivot axis when the seat back assembly is in the tilt back position;
wherein the piston and cylinder assembly is attached between the frame assembly and the seat back assembly by means of an angled bracket, such that as the seat back assembly moves to the tilt forward position, the distance between the longitudinal axis of the piston cylinder assembly and the pivot axis increases;
wherein the pivot axis is adapted to be positioned in a lower lumbar area of the user when the user is seated on the frame assembly against the seat and lumber support;
wherein the seat has a perimeter that has a leading edge adapted to accommodate a range of swiveled hip positions; and
wherein the seat back assembly further includes hand members.
2. The abdominal exercise machine of claim 1, wherein the support arm includes a resilient stop for receiving the seat back assembly thereon.
3. The abdominal exercise machine of claim 1, wherein the frame assembly includes a base and wherein the support arm is engaged to the base at an angular position in the range of about 45\xb0 to about 89\xb0.
4. The abdominal exercise machine of claim 1, wherein the piston and cylinder assembly is hydraulic.
5. The abdominal exercise machine of claim 1, wherein the piston and cylinder assembly is pneumatic.
6. The abdominal exercise machine of claim 1 wherein the seat back assembly includes a multiplicity of cross members to support the upper back support member.
7. The abdominal exercise machine of claim 1, further including a bearing assembly for engaging the seat back assembly to the frame assembly.
8. The abdominal exercise machine of claim 1, wherein the frame assembly further includes a standoff for mounting the piston and cylinder assembly thereto.
9. An abdominal exercise machine comprising:
a frame assembly with a seat and a lumbar support attached thereto, the seat and lumbar support statically positioned with respect to the frame assembly, the frame assembly at a tilted back position and having a support arm;
a seat back assembly pivotally attached to the frame assembly at a pivot axis, the seat back assembly with an upper back support member, the seat back assembly for pivoting with respect to the support arm from a back position where the upper back support member is tilted back from vertical to a tilt forward position when the upper back support member is past vertical and wherein the pivot axis is positioned above the seat within a user’s lower lumbar area at a point forward of and perpendicular to the frame assembly; and
a resistance assembly attached between the frame assembly and the seat back assembly and having a longitudinal axis;
wherein the support arm is adapted to support the seat back assembly in the rest position;
wherein the upper back support member is about parallel to the plane of the lumbar support when in the rest position;
wherein the resistance assembly comprises a piston and cylinder assembly;
wherein the longitudinal axis of the piston and cylinder assembly is close to the pivot axis when the seat back assembly is in the tilt back position;
wherein the piston and cylinder assembly is attached between the frame assembly and the seat back assembly by means of an angled bracket, such that as the seat back assembly moves to a tilt forward position, the distance between the longitudinal axis of the piston and cylinder assembly and the pivot axis increases;
wherein the pivot axis is adapted to be positioned in a lower lumbar area of the user when the user is seated on the frame assembly against the seat and lumbar support;
wherein the seat has a perimeter that has a leading edge adapted to accommodate a seated position with the hips swiveled;
wherein the seat back assembly further includes hand members;
wherein the frame assembly includes a base; and
wherein the support arm is engaged to the base at an angular position in the range of about 45\xb0 to 89\xb0.
10. A method of using an abdominal muscle machine method including the steps of:
providing a frame assembly with a seat and a lumbar support attached thereto, the seat and lumbar support statically positioned with respect to the frame assembly, the frame assembly at a tilted back position and having a support arm;
a seat back assembly pivotally attached to the frame assembly at a pivot axis, the seat back assembly with an upper back support member, the seat back assembly for pivoting with respect to the support arm from a back position where the upper back support member is tilted back from vertical a tilted forward position when the upper back support member is past vertical and wherein the pivot axis is positioned above the seat within a user’s lower lumbar area at a point forward of and perpendicular to the frame assembly; and
a resistance assembly comprising a piston and cylinder assembly attached between the frame assembly and the seat back assembly and having a longitudinal axis;
wherein the support arm is adapted to support the seat back assembly in a rest position; and
wherein the upper back support member is about parallel to the lumbar support when in the rest position;
wherein the longitudinal axis of the piston and cylinder assembly is close to the pivot axis when the seat back assembly is in the tilted back position; wherein the position and cylinder assembly is attached between the frame assembly and the seat back assembly by means of an angled bracket, such that the seat back assembly moves to the tilted forward position, the distance between the longitudinal axis of the piston cylinder assembly and the pivot axis increases; wherein the pivot axis is adapted to be positioned in the lower lumbar area of the user when the user is seated on the frame assembly against the seat and the lumbar support; and
wherein the seat has a perimeter that is adapted to accommodate a range of swiveled hip positions.
assuming a first seated position with the upper torso body and upper legs facing forward;
performing a multiplicity of crunch style sit-ups;
realigning the upper legs to one side or the other of said first position; and
performing a multiplicity of exercise movements.