架构师提供的文本描述。这座建筑位于萨拉曼卡大学米格尔·德·尤纳穆诺校区尽头的一块地皮上。它的地形崎岖，在最外面的点之间相差高达6米。考虑到这一条件，植入方案从具有两个不同输入级别的拓扑方法开始，允许按类型和用途(车辆通道和具有代表性的行人通道分别位于下层和上层)进行进一步隔离。

Text description provided by the architects. The building is located on a plot at the end of Salamanca University Campus Miguel de Unamuno. Its topography is rugged, with a difference of up to 6 m between the outermost points. Taking this condition the implantation proposal starts off from a topological approach with two different input levels, allowing access further segregation by types and uses (vehicle access and representative pedestrian access at the lower and upper level, respectively).

 © Juan K. Ayala

(Juan K.Ayala)

所采用的解决办法导致建造了一座单一和紧凑的建筑，其中有一个连续和半透明的掩膜，灵感来自遗传编码过程，此后，该计划围绕着八个功能性的大垂直孔(四个室内和四个附在立面上)组织起来，从而获得了一个有天然照明的泡沫内部。该计划的紧凑还使我们能够解放大部分地块表面，并设计梯田/景观板块，使户外休闲区与受控停车场共存。

The solution adopted led to the construction of a unitary and compact building, with a continuous and semi-transparent mask inspired in genetic coding processes, after which the plan is organized around eight functional large vertical holes (four indoor and four attached to the facade), thereby obtaining a foamed interior provided with natural lighting. The compaction of the program also allowed us to liberate most of the plot's surface, and to project terraced/landscaped plates to allow the coexistence of the outdoor leisure area with controlled parking strips.

 © Juan K. Ayala

(Juan K.Ayala)

位于建筑物北端的变形虫式礼堂被配置为(正式和建设性的)微分元素，标志着建筑物的主要入口。在另一个极端，一个大的混凝土支架为探险(另一个主要通道)提供了空间，并可容纳低温储气罐。

The auditorium of amoeboid form, located on the northern head of the building, is configured as a (formal and constructively) differential element that marks the main entrance to the building. At the other extreme, a large concrete brackets allow shelter the space for expeditions (the other major access area) and hold cryogenic gas tanks.