A 3DIC structure includes a first die and a second die on a substrate and a bonding die. The boding die is electrically bonded to the first die and the second die. The bonding die covers a portion of a top surface of a scribe region between the first die and the second die.

Disclosed herein is a semiconductor device, including: a first substrate including a first electrode, and a first insulating film configured from a diffusion preventing material for the first electrode and covering a periphery of the first electrode, the first electrode and the first insulating film cooperating with each other to configure a bonding face; and a second substrate bonded to and provided on the first substrate and including a second electrode joined to the first electrode, and a second insulating film configured from a diffusion preventing material for the second electrode and covering a periphery of the second electrode, the second electrode and the second insulating film cooperating with each other to configure a bonding face to the first substrate.

Disclosed herein is a semiconductor device, including: a first substrate including a first electrode, and a first insulating film configured from a diffusion preventing material for the first electrode and covering a periphery of the first electrode, the first electrode and the first insulating film cooperating with each other to configure a bonding face; and a second substrate bonded to and provided on the first substrate and including a second electrode joined to the first electrode, and a second insulating film configured from a diffusion preventing material for the second electrode and covering a periphery of the second electrode, the second electrode and the second insulating film cooperating with each other to configure a bonding face to the first substrate.

Disclosed herein is a semiconductor device, including: a first substrate including a first electrode, and a first insulating film configured from a diffusion preventing material for the first electrode and covering a periphery of the first electrode, the first electrode and the first insulating film cooperating with each other to configure a bonding face; and a second substrate bonded to and provided on the first substrate and including a second electrode joined to the first electrode, and a second insulating film configured from a diffusion preventing material for the second electrode and covering a periphery of the second electrode, the second electrode and the second insulating film cooperating with each other to configure a bonding face to the first substrate.

Disclosed herein is a semiconductor device, including: a first substrate including a first electrode, and a first insulating film configured from a diffusion preventing material for the first electrode and covering a periphery of the first electrode, the first electrode and the first insulating film cooperating with each other to configure a bonding face; and a second substrate bonded to and provided on the first substrate and including a second electrode joined to the first electrode, and a second insulating film configured from a diffusion preventing material for the second electrode and covering a periphery of the second electrode, the second electrode and the second insulating film cooperating with each other to configure a bonding face to the first substrate.

A semiconductor device comprises a first semiconductor chip comprising a first substrate. A first magnetic tunnel junction is on the first substrate. A second semiconductor chip comprises a second substrate. A second magnetic tunnel junction is on the second substrate. The second semiconductor chip is positioned on the first semiconductor chip to form a chip stack. A first critical current density required for magnetization reversal of the first magnetic tunnel junction is different than a second critical current density required for magnetization reversal of the second magnetic tunnel junction.

A semiconductor device comprises a first semiconductor chip comprising a first substrate. A first magnetic tunnel junction is on the first substrate. A second semiconductor chip comprises a second substrate. A second magnetic tunnel junction is on the second substrate. The second semiconductor chip is positioned on the first semiconductor chip to form a chip stack. A first critical current density required for magnetization reversal of the first magnetic tunnel junction is different than a second critical current density required for magnetization reversal of the second magnetic tunnel junction.

A substrate bonding method and apparatus are described. The substrate bonding apparatus is used to bond a first substrate to a second substrate. The bonding apparatus includes a first bonding chuck configured to hold the first substrate on a first surface of the first bonding chuck; a second bonding chuck configured to hold the second substrate on a second surface of the second bonding chuck, the second surface facing the first surface of the first bonding chuck; a seal arranged between the first bonding chuck and the second bonding chuck and adjacent to at least one edge of the first substrate and at least one edge of the second substrate; and a process gas supply device configured to supply a process gas to a bonding space surrounded by the seal.

A substrate bonding method and apparatus are described. The substrate bonding apparatus is used to bond a first substrate to a second substrate. The bonding apparatus includes a first bonding chuck configured to hold the first substrate on a first surface of the first bonding chuck; a second bonding chuck configured to hold the second substrate on a second surface of the second bonding chuck, the second surface facing the first surface of the first bonding chuck; a seal arranged between the first bonding chuck and the second bonding chuck and adjacent to at least one edge of the first substrate and at least one edge of the second substrate; and a process gas supply device configured to supply a process gas to a bonding space surrounded by the seal.

A semiconductor device comprises a first semiconductor chip comprising a first substrate. A first magnetic tunnel junction is on the first substrate. A second semiconductor chip comprises a second substrate. A second magnetic tunnel junction is on the second substrate. The second semiconductor chip is positioned on the first semiconductor chip to form a chip stack. A first critical current density required for magnetization reversal of the first magnetic tunnel junction is different than a second critical current density required for magnetization reversal of the second magnetic tunnel junction.